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Rollup merge of #130184 - Zalathar:counters, r=compiler-errors
coverage: Clean up terminology in counter creation Some of the terminology in this module is confusing, or has drifted out of sync with other parts of the coverage code. This PR therefore renames some variables and methods, and adjusts comments and debug logging statements, to make things clearer and more consistent. No functional changes, other than some small tweaks to debug logging.
This commit is contained in:
commit
98222a524d
@ -74,12 +74,11 @@ pub(super) struct CoverageCounters {
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}
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impl CoverageCounters {
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/// Makes [`BcbCounter`] `Counter`s and `Expressions` for the `BasicCoverageBlock`s directly or
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/// indirectly associated with coverage spans, and accumulates additional `Expression`s
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/// representing intermediate values.
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/// Ensures that each BCB node needing a counter has one, by creating physical
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/// counters or counter expressions for nodes and edges as required.
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pub(super) fn make_bcb_counters(
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basic_coverage_blocks: &CoverageGraph,
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bcb_has_coverage_spans: impl Fn(BasicCoverageBlock) -> bool,
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bcb_needs_counter: impl Fn(BasicCoverageBlock) -> bool,
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) -> Self {
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let num_bcbs = basic_coverage_blocks.num_nodes();
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@ -91,8 +90,7 @@ impl CoverageCounters {
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expressions_memo: FxHashMap::default(),
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};
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MakeBcbCounters::new(&mut this, basic_coverage_blocks)
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.make_bcb_counters(bcb_has_coverage_spans);
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MakeBcbCounters::new(&mut this, basic_coverage_blocks).make_bcb_counters(bcb_needs_counter);
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this
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}
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@ -241,10 +239,7 @@ impl CoverageCounters {
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}
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}
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/// Traverse the `CoverageGraph` and add either a `Counter` or `Expression` to every BCB, to be
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/// injected with coverage spans. `Expressions` have no runtime overhead, so if a viable expression
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/// (adding or subtracting two other counters or expressions) can compute the same result as an
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/// embedded counter, an `Expression` should be used.
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/// Helper struct that allows counter creation to inspect the BCB graph.
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struct MakeBcbCounters<'a> {
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coverage_counters: &'a mut CoverageCounters,
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basic_coverage_blocks: &'a CoverageGraph,
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@ -258,36 +253,21 @@ impl<'a> MakeBcbCounters<'a> {
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Self { coverage_counters, basic_coverage_blocks }
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}
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/// If two `BasicCoverageBlock`s branch from another `BasicCoverageBlock`, one of the branches
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/// can be counted by `Expression` by subtracting the other branch from the branching
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/// block. Otherwise, the `BasicCoverageBlock` executed the least should have the `Counter`.
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/// One way to predict which branch executes the least is by considering loops. A loop is exited
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/// at a branch, so the branch that jumps to a `BasicCoverageBlock` outside the loop is almost
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/// always executed less than the branch that does not exit the loop.
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fn make_bcb_counters(&mut self, bcb_has_coverage_spans: impl Fn(BasicCoverageBlock) -> bool) {
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fn make_bcb_counters(&mut self, bcb_needs_counter: impl Fn(BasicCoverageBlock) -> bool) {
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debug!("make_bcb_counters(): adding a counter or expression to each BasicCoverageBlock");
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// Walk the `CoverageGraph`. For each `BasicCoverageBlock` node with an associated
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// coverage span, add a counter. If the `BasicCoverageBlock` branches, add a counter or
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// expression to each branch `BasicCoverageBlock` (if the branch BCB has only one incoming
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// edge) or edge from the branching BCB to the branch BCB (if the branch BCB has multiple
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// incoming edges).
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// Traverse the coverage graph, ensuring that every node that needs a
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// coverage counter has one.
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//
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// The `TraverseCoverageGraphWithLoops` traversal ensures that, when a loop is encountered,
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// all `BasicCoverageBlock` nodes in the loop are visited before visiting any node outside
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// the loop. The `traversal` state includes a `context_stack`, providing a way to know if
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// the current BCB is in one or more nested loops or not.
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// The traversal tries to ensure that, when a loop is encountered, all
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// nodes within the loop are visited before visiting any nodes outside
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// the loop. It also keeps track of which loop(s) the traversal is
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// currently inside.
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let mut traversal = TraverseCoverageGraphWithLoops::new(self.basic_coverage_blocks);
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while let Some(bcb) = traversal.next() {
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if bcb_has_coverage_spans(bcb) {
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debug!("{:?} has at least one coverage span. Get or make its counter", bcb);
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self.make_node_and_branch_counters(&traversal, bcb);
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} else {
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debug!(
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"{:?} does not have any coverage spans. A counter will only be added if \
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and when a covered BCB has an expression dependency.",
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bcb,
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);
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let _span = debug_span!("traversal", ?bcb).entered();
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if bcb_needs_counter(bcb) {
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self.make_node_counter_and_out_edge_counters(&traversal, bcb);
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}
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}
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@ -298,73 +278,66 @@ impl<'a> MakeBcbCounters<'a> {
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);
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}
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fn make_node_and_branch_counters(
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/// Make sure the given node has a node counter, and then make sure each of
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/// its out-edges has an edge counter (if appropriate).
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#[instrument(level = "debug", skip(self, traversal))]
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fn make_node_counter_and_out_edge_counters(
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&mut self,
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traversal: &TraverseCoverageGraphWithLoops<'_>,
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from_bcb: BasicCoverageBlock,
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) {
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// First, ensure that this node has a counter of some kind.
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// We might also use its term later to compute one of the branch counters.
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let from_bcb_operand = self.get_or_make_counter_operand(from_bcb);
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// We might also use that counter to compute one of the out-edge counters.
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let node_counter = self.get_or_make_node_counter(from_bcb);
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let branch_target_bcbs = self.basic_coverage_blocks.successors[from_bcb].as_slice();
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let successors = self.basic_coverage_blocks.successors[from_bcb].as_slice();
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// If this node doesn't have multiple out-edges, or all of its out-edges
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// already have counters, then we don't need to create edge counters.
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let needs_branch_counters = branch_target_bcbs.len() > 1
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&& branch_target_bcbs
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.iter()
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.any(|&to_bcb| self.branch_has_no_counter(from_bcb, to_bcb));
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if !needs_branch_counters {
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let needs_out_edge_counters = successors.len() > 1
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&& successors.iter().any(|&to_bcb| self.edge_has_no_counter(from_bcb, to_bcb));
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if !needs_out_edge_counters {
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return;
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}
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debug!(
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"{from_bcb:?} has some branch(es) without counters:\n {}",
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branch_target_bcbs
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.iter()
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.map(|&to_bcb| {
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format!("{from_bcb:?}->{to_bcb:?}: {:?}", self.branch_counter(from_bcb, to_bcb))
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})
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.collect::<Vec<_>>()
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.join("\n "),
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);
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if tracing::enabled!(tracing::Level::DEBUG) {
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let _span =
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debug_span!("node has some out-edges without counters", ?from_bcb).entered();
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for &to_bcb in successors {
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debug!(?to_bcb, counter=?self.edge_counter(from_bcb, to_bcb));
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}
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}
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// Of the branch edges that don't have counters yet, one can be given an expression
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// (computed from the other edges) instead of a dedicated counter.
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let expression_to_bcb = self.choose_preferred_expression_branch(traversal, from_bcb);
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// Of the out-edges that don't have counters yet, one can be given an expression
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// (computed from the other out-edges) instead of a dedicated counter.
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let expression_to_bcb = self.choose_out_edge_for_expression(traversal, from_bcb);
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// For each branch arm other than the one that was chosen to get an expression,
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// For each out-edge other than the one that was chosen to get an expression,
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// ensure that it has a counter (existing counter/expression or a new counter),
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// and accumulate the corresponding terms into a single sum term.
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let sum_of_all_other_branches: BcbCounter = {
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let _span = debug_span!("sum_of_all_other_branches", ?expression_to_bcb).entered();
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branch_target_bcbs
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// and accumulate the corresponding counters into a single sum expression.
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let sum_of_all_other_out_edges: BcbCounter = {
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let _span = debug_span!("sum_of_all_other_out_edges", ?expression_to_bcb).entered();
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successors
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.iter()
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.copied()
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// Skip the chosen branch, since we'll calculate it from the other branches.
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// Skip the chosen edge, since we'll calculate its count from this sum.
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.filter(|&to_bcb| to_bcb != expression_to_bcb)
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.fold(None, |accum, to_bcb| {
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let _span = debug_span!("to_bcb", ?accum, ?to_bcb).entered();
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let branch_counter = self.get_or_make_edge_counter_operand(from_bcb, to_bcb);
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Some(self.coverage_counters.make_sum_expression(accum, branch_counter))
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let edge_counter = self.get_or_make_edge_counter(from_bcb, to_bcb);
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Some(self.coverage_counters.make_sum_expression(accum, edge_counter))
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})
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.expect("there must be at least one other branch")
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.expect("there must be at least one other out-edge")
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};
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// For the branch that was chosen to get an expression, create that expression
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// by taking the count of the node we're branching from, and subtracting the
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// sum of all the other branches.
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debug!(
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"Making an expression for the selected expression_branch: \
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{expression_to_bcb:?} (expression_branch predecessors: {:?})",
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self.bcb_predecessors(expression_to_bcb),
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);
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// Now create an expression for the chosen edge, by taking the counter
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// for its source node and subtracting the sum of its sibling out-edges.
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let expression = self.coverage_counters.make_expression(
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from_bcb_operand,
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node_counter,
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Op::Subtract,
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sum_of_all_other_branches,
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sum_of_all_other_out_edges,
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);
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debug!("{expression_to_bcb:?} gets an expression: {expression:?}");
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if self.basic_coverage_blocks.bcb_has_multiple_in_edges(expression_to_bcb) {
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self.coverage_counters.set_bcb_edge_counter(from_bcb, expression_to_bcb, expression);
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@ -374,7 +347,7 @@ impl<'a> MakeBcbCounters<'a> {
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}
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#[instrument(level = "debug", skip(self))]
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fn get_or_make_counter_operand(&mut self, bcb: BasicCoverageBlock) -> BcbCounter {
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fn get_or_make_node_counter(&mut self, bcb: BasicCoverageBlock) -> BcbCounter {
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// If the BCB already has a counter, return it.
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if let Some(counter_kind) = self.coverage_counters.bcb_counters[bcb] {
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debug!("{bcb:?} already has a counter: {counter_kind:?}");
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@ -411,7 +384,7 @@ impl<'a> MakeBcbCounters<'a> {
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.copied()
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.fold(None, |accum, from_bcb| {
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let _span = debug_span!("from_bcb", ?accum, ?from_bcb).entered();
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let edge_counter = self.get_or_make_edge_counter_operand(from_bcb, bcb);
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let edge_counter = self.get_or_make_edge_counter(from_bcb, bcb);
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Some(self.coverage_counters.make_sum_expression(accum, edge_counter))
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})
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.expect("there must be at least one in-edge")
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@ -422,7 +395,7 @@ impl<'a> MakeBcbCounters<'a> {
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}
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#[instrument(level = "debug", skip(self))]
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fn get_or_make_edge_counter_operand(
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fn get_or_make_edge_counter(
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&mut self,
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from_bcb: BasicCoverageBlock,
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to_bcb: BasicCoverageBlock,
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@ -431,13 +404,13 @@ impl<'a> MakeBcbCounters<'a> {
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// a node counter instead, since it will have the same value.
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if !self.basic_coverage_blocks.bcb_has_multiple_in_edges(to_bcb) {
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assert_eq!([from_bcb].as_slice(), self.basic_coverage_blocks.predecessors[to_bcb]);
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return self.get_or_make_counter_operand(to_bcb);
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return self.get_or_make_node_counter(to_bcb);
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}
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// If the source BCB has only one successor (assumed to be the given target), an edge
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// counter is unnecessary. Just get or make a counter for the source BCB.
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if self.bcb_successors(from_bcb).len() == 1 {
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return self.get_or_make_counter_operand(from_bcb);
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return self.get_or_make_node_counter(from_bcb);
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}
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// If the edge already has a counter, return it.
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@ -455,82 +428,79 @@ impl<'a> MakeBcbCounters<'a> {
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self.coverage_counters.set_bcb_edge_counter(from_bcb, to_bcb, counter_kind)
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}
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/// Select a branch for the expression, either the recommended `reloop_branch`, or if none was
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/// found, select any branch.
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fn choose_preferred_expression_branch(
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/// Choose one of the out-edges of `from_bcb` to receive an expression
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/// instead of a physical counter, and returns that edge's target node.
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///
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/// - Precondition: The node must have at least one out-edge without a counter.
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/// - Postcondition: The selected edge does not have an edge counter.
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fn choose_out_edge_for_expression(
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&self,
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traversal: &TraverseCoverageGraphWithLoops<'_>,
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from_bcb: BasicCoverageBlock,
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) -> BasicCoverageBlock {
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let good_reloop_branch = self.find_good_reloop_branch(traversal, from_bcb);
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if let Some(reloop_target) = good_reloop_branch {
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assert!(self.branch_has_no_counter(from_bcb, reloop_target));
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if let Some(reloop_target) = self.find_good_reloop_edge(traversal, from_bcb) {
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assert!(self.edge_has_no_counter(from_bcb, reloop_target));
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debug!("Selecting reloop target {reloop_target:?} to get an expression");
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reloop_target
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} else {
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let &branch_without_counter = self
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.bcb_successors(from_bcb)
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.iter()
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.find(|&&to_bcb| self.branch_has_no_counter(from_bcb, to_bcb))
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.expect(
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"needs_branch_counters was `true` so there should be at least one \
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branch",
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);
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debug!(
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"Selecting any branch={:?} that still needs a counter, to get the \
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`Expression` because there was no `reloop_branch`, or it already had a \
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counter",
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branch_without_counter
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);
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branch_without_counter
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return reloop_target;
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}
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// We couldn't identify a "good" edge, so just choose any edge that
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// doesn't already have a counter.
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let arbitrary_target = self
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.bcb_successors(from_bcb)
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.iter()
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.copied()
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.find(|&to_bcb| self.edge_has_no_counter(from_bcb, to_bcb))
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.expect("precondition: at least one out-edge without a counter");
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debug!(?arbitrary_target, "selecting arbitrary out-edge to get an expression");
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arbitrary_target
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}
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/// Tries to find a branch that leads back to the top of a loop, and that
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/// doesn't already have a counter. Such branches are good candidates to
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/// Tries to find an edge that leads back to the top of a loop, and that
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/// doesn't already have a counter. Such edges are good candidates to
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/// be given an expression (instead of a physical counter), because they
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/// will tend to be executed more times than a loop-exit branch.
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fn find_good_reloop_branch(
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/// will tend to be executed more times than a loop-exit edge.
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fn find_good_reloop_edge(
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&self,
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traversal: &TraverseCoverageGraphWithLoops<'_>,
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from_bcb: BasicCoverageBlock,
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) -> Option<BasicCoverageBlock> {
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let branch_target_bcbs = self.bcb_successors(from_bcb);
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let successors = self.bcb_successors(from_bcb);
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// Consider each loop on the current traversal context stack, top-down.
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for reloop_bcbs in traversal.reloop_bcbs_per_loop() {
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let mut all_branches_exit_this_loop = true;
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let mut all_edges_exit_this_loop = true;
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// Try to find a branch that doesn't exit this loop and doesn't
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// Try to find an out-edge that doesn't exit this loop and doesn't
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// already have a counter.
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for &branch_target_bcb in branch_target_bcbs {
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// A branch is a reloop branch if it dominates any BCB that has
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// an edge back to the loop header. (Other branches are exits.)
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let is_reloop_branch = reloop_bcbs.iter().any(|&reloop_bcb| {
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self.basic_coverage_blocks.dominates(branch_target_bcb, reloop_bcb)
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for &target_bcb in successors {
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// An edge is a reloop edge if its target dominates any BCB that has
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// an edge back to the loop header. (Otherwise it's an exit edge.)
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let is_reloop_edge = reloop_bcbs.iter().any(|&reloop_bcb| {
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self.basic_coverage_blocks.dominates(target_bcb, reloop_bcb)
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});
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if is_reloop_branch {
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all_branches_exit_this_loop = false;
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if self.branch_has_no_counter(from_bcb, branch_target_bcb) {
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// We found a good branch to be given an expression.
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return Some(branch_target_bcb);
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if is_reloop_edge {
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all_edges_exit_this_loop = false;
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if self.edge_has_no_counter(from_bcb, target_bcb) {
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// We found a good out-edge to be given an expression.
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return Some(target_bcb);
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}
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// Keep looking for another reloop branch without a counter.
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// Keep looking for another reloop edge without a counter.
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} else {
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// This branch exits the loop.
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// This edge exits the loop.
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}
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}
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if !all_branches_exit_this_loop {
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// We found one or more reloop branches, but all of them already
|
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// have counters. Let the caller choose one of the exit branches.
|
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debug!("All reloop branches had counters; skip checking the other loops");
|
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if !all_edges_exit_this_loop {
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// We found one or more reloop edges, but all of them already
|
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// have counters. Let the caller choose one of the other edges.
|
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debug!("All reloop edges had counters; skipping the other loops");
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return None;
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}
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|
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// All of the branches exit this loop, so keep looking for a good
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// reloop branch for one of the outer loops.
|
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// All of the out-edges exit this loop, so keep looking for a good
|
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// reloop edge for one of the outer loops.
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}
|
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|
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None
|
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@ -547,15 +517,15 @@ impl<'a> MakeBcbCounters<'a> {
|
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}
|
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|
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#[inline]
|
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fn branch_has_no_counter(
|
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fn edge_has_no_counter(
|
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&self,
|
||||
from_bcb: BasicCoverageBlock,
|
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to_bcb: BasicCoverageBlock,
|
||||
) -> bool {
|
||||
self.branch_counter(from_bcb, to_bcb).is_none()
|
||||
self.edge_counter(from_bcb, to_bcb).is_none()
|
||||
}
|
||||
|
||||
fn branch_counter(
|
||||
fn edge_counter(
|
||||
&self,
|
||||
from_bcb: BasicCoverageBlock,
|
||||
to_bcb: BasicCoverageBlock,
|
||||
|
Loading…
Reference in New Issue
Block a user