if (selfPairs)
{
searchPair = NeighborhoodSearchTestData::RefPair(testIndex, 0.0);
- const auto otherRefPair = std::lower_bound(refPairs[refIndex].begin(),
- refPairs[refIndex].end(), searchPair);
+ const auto otherRefPair = std::lower_bound(
+ refPairs[refIndex].begin(), refPairs[refIndex].end(), searchPair);
GMX_RELEASE_ASSERT(otherRefPair != refPairs[refIndex].end(),
"Precomputed reference data is not symmetric");
otherRefPair->bFound = true;
nb_.initSearch(&data.pbc_, data.refPositions().exclusionIds(helper.refPosIds()));
ASSERT_EQ(gmx::AnalysisNeighborhood::eSearchMode_Simple, search.mode());
- testPairSearchFull(&search, data, data.testPositions().exclusionIds(helper.testPosIds()),
- helper.exclusions(), {}, {}, false);
+ testPairSearchFull(&search,
+ data,
+ data.testPositions().exclusionIds(helper.testPosIds()),
+ helper.exclusions(),
+ {},
+ {},
+ false);
}
TEST_F(NeighborhoodSearchTest, GridSearchExclusions)
nb_.initSearch(&data.pbc_, data.refPositions().exclusionIds(helper.refPosIds()));
ASSERT_EQ(gmx::AnalysisNeighborhood::eSearchMode_Grid, search.mode());
- testPairSearchFull(&search, data, data.testPositions().exclusionIds(helper.testPosIds()),
- helper.exclusions(), {}, {}, false);
+ testPairSearchFull(&search,
+ data,
+ data.testPositions().exclusionIds(helper.testPosIds()),
+ helper.exclusions(),
+ {},
+ {},
+ false);
}
} // namespace