unsigned NCases = Range.getZExtValue() + 1;
// We only have one region counter for the entire set of cases here, so we
// need to divide the weights evenly between the generated cases, ensuring
- // that the total weight is preserved. Ie, a weight of 5 over three cases
+ // that the total weight is preserved. E.g., a weight of 5 over three cases
// will be distributed as weights of 2, 2, and 1.
uint64_t Weight = Total / NCases, Rem = Total % NCases;
for (unsigned I = 0; I != NCases; ++I) {
/// number of direct jumps to that label.
uint64_t getCount() const { return Count; }
/// Get the value of the counter with adjustments applied. Adjustments occur
- /// when control enters or leaves the region abnormally, ie, if there is a
+ /// when control enters or leaves the region abnormally; i.e., if there is a
/// jump to a label within the region, or if the function can return from
/// within the region. The adjusted count, then, is the value of the counter
/// at the end of the region.
assert((Adjust > 0 || (uint64_t)(-Adjust) <= Count) && "Negative count");
return Count + Adjust;
}
- /// Get the value of the counter in this region's parent, ie, the region that
- /// was active when this region began. This is useful for deriving counts in
- /// implicitly counted regions, like the false case of a condition or the
- /// normal exits of a loop.
+ /// Get the value of the counter in this region's parent, i.e., the region
+ /// that was active when this region began. This is useful for deriving
+ /// counts in implicitly counted regions, like the false case of a condition
+ /// or the normal exits of a loop.
uint64_t getParentCount() const { return ParentCount; }
/// Get the number of times the condition of a loop will evaluate false. This
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