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// Copyright 2016 Yahoo Inc. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#include "wand_bench_setup.hpp"
using namespace rise;
namespace {
template <typename WeakAndType, typename RiseType>
void checkWandHits(WandFactory &vespa, WandFactory &rise, uint32_t step, uint32_t filter) {
WandSetup vespaSetup(vespa, 500, 5000000);
WandSetup riseSetup(rise, 500, 5000000);
SearchIterator::UP s1 = vespaSetup.create();
s1->initFullRange();
SearchIterator::UP s2 = riseSetup.create();
s2->initFullRange();
ASSERT_TRUE(dynamic_cast<WeakAndType*>(s1.get()) != 0);
ASSERT_TRUE(dynamic_cast<WeakAndType*>(s2.get()) == 0);
ASSERT_TRUE(dynamic_cast<RiseType*>(s2.get()) != 0);
ASSERT_TRUE(dynamic_cast<RiseType*>(s1.get()) == 0);
s1->seek(1);
s2->seek(1);
while (!s1->isAtEnd() &&
!s2->isAtEnd())
{
ASSERT_EQUAL(s1->getDocId(), s2->getDocId());
if ((filter == 0) || ((s1->getDocId() % filter) != 0)) {
s1->unpack(s1->getDocId());
s2->unpack(s2->getDocId());
}
s1->seek(s1->getDocId() + step);
s2->seek(s2->getDocId() + step);
}
ASSERT_TRUE(s1->isAtEnd());
ASSERT_TRUE(s2->isAtEnd());
}
} // namespace <unnamed>
TEST("require that mod search works") {
Stats stats;
SearchIterator::UP search(new ModSearch(stats, 3, 8, 3, NULL));
SimpleResult hits;
hits.search(*search);
EXPECT_EQUAL(SimpleResult().addHit(3).addHit(6), hits);
}
//---- WeakAndSearch ------------------------------------------------------------------------------
TEST_FF("require that (array) WAND and RISE WAND gives the same hits",
VespaArrayWandFactory(500), TermFrequencyRiseWandFactory(500))
{
checkWandHits<WeakAndSearch, TermFrequencyRiseWand>(f1, f2, 1, 0);
}
TEST_FF("require that (heap) WAND and RISE WAND gives the same hits",
VespaHeapWandFactory(500), TermFrequencyRiseWandFactory(500))
{
checkWandHits<WeakAndSearch, TermFrequencyRiseWand>(f1, f2, 1, 0);
}
TEST_FF("require that (array) WAND and RISE WAND gives the same hits with filtering and skipping",
VespaArrayWandFactory(500), TermFrequencyRiseWandFactory(500))
{
checkWandHits<WeakAndSearch, TermFrequencyRiseWand>(f1, f2, 123, 5);
}
TEST_FF("require that (heap) WAND and RISE WAND gives the same hits with filtering and skipping",
VespaHeapWandFactory(500), TermFrequencyRiseWandFactory(500))
{
checkWandHits<WeakAndSearch, TermFrequencyRiseWand>(f1, f2, 123, 5);
}
//---- ParallelWeakAndSearch ----------------------------------------------------------------------
TEST_FF("require that (array) PWAND and RISE WAND gives the same hits",
VespaParallelArrayWandFactory(500), DotProductRiseWandFactory(500))
{
checkWandHits<ParallelWeakAndSearch, DotProductRiseWand>(f1, f2, 1, 0);
}
TEST_FF("require that (heap) PWAND and RISE WAND gives the same hits",
VespaParallelHeapWandFactory(500), DotProductRiseWandFactory(500))
{
checkWandHits<ParallelWeakAndSearch, DotProductRiseWand>(f1, f2, 1, 0);
}
TEST_FF("require that (array) PWAND and RISE WAND gives the same hits with filtering and skipping",
VespaParallelArrayWandFactory(500), DotProductRiseWandFactory(500))
{
checkWandHits<ParallelWeakAndSearch, DotProductRiseWand>(f1, f2, 123, 5);
}
TEST_FF("require that (heap) PWAND and RISE WAND gives the same hits with filtering and skipping",
VespaParallelHeapWandFactory(500), DotProductRiseWandFactory(500))
{
checkWandHits<ParallelWeakAndSearch, DotProductRiseWand>(f1, f2, 123, 5);
}
TEST_MAIN() { TEST_RUN_ALL(); }
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