coverage: Avoid referring to out-edges as "branches"
This makes the graph terminology a bit more consistent, and avoids potential confusion with branch coverage.
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@ -253,12 +253,6 @@ fn new(
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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_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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@ -273,7 +267,7 @@ fn make_bcb_counters(&mut self, bcb_needs_counter: impl Fn(BasicCoverageBlock) -
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while let Some(bcb) = traversal.next() {
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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_and_branch_counters(&traversal, 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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@ -284,74 +278,66 @@ fn make_bcb_counters(&mut self, bcb_needs_counter: impl Fn(BasicCoverageBlock) -
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);
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}
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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_and_branch_counters(
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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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// We might also use that counter to compute one of the out-edge counters.
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let from_bcb_operand = self.get_or_make_counter_operand(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_operand(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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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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@ -442,82 +428,79 @@ fn get_or_make_edge_counter_operand(
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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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// 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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None
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@ -534,15 +517,15 @@ fn bcb_successors(&self, bcb: BasicCoverageBlock) -> &[BasicCoverageBlock] {
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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,
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from_bcb: BasicCoverageBlock,
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to_bcb: BasicCoverageBlock,
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) -> bool {
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self.branch_counter(from_bcb, to_bcb).is_none()
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self.edge_counter(from_bcb, to_bcb).is_none()
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}
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fn branch_counter(
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fn edge_counter(
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&self,
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from_bcb: BasicCoverageBlock,
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to_bcb: BasicCoverageBlock,
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