public virtual void TestIllegalCollectorOnReplay()
{
// tests that the Collector passed to replay() has an out-of-order mode that
// is valid with the Collector passed to the ctor
// 'src' Collector does not support out-of-order
CachingCollector cc = CachingCollector.Create(new NoOpCollector(false), true, 50 * ONE_BYTE);
cc.SetScorer(new MockScorer());
for (int i = 0; i < 10; i++)
{
cc.Collect(i);
}
cc.Replay(new NoOpCollector(true)); // this call should not fail
cc.Replay(new NoOpCollector(false)); // this call should not fail
// 'src' Collector supports out-of-order
cc = CachingCollector.Create(new NoOpCollector(true), true, 50 * ONE_BYTE);
cc.SetScorer(new MockScorer());
for (int i = 0; i < 10; i++)
{
cc.Collect(i);
}
cc.Replay(new NoOpCollector(true)); // this call should not fail
try
{
cc.Replay(new NoOpCollector(false)); // this call should fail
Assert.Fail("should have failed if an in-order Collector was given to replay(), " + "while CachingCollector was initialized with out-of-order collection");
}
catch (Exception e) when(e.IsIllegalArgumentException())
{
// ok
}
}
public virtual void TestIllegalStateOnReplay()
{
CachingCollector cc = CachingCollector.Create(new NoOpCollector(false), true, 50 * ONE_BYTE);
cc.SetScorer(new MockScorer());
// collect 130 docs, this should be enough for triggering cache abort.
for (int i = 0; i < 130; i++)
{
cc.Collect(i);
}
Assert.IsFalse(cc.IsCached, "CachingCollector should not be cached due to low memory limit");
try
{
cc.Replay(new NoOpCollector(false));
Assert.Fail("replay should fail if CachingCollector is not cached");
}
#pragma warning disable 168
catch (InvalidOperationException e)
#pragma warning restore 168
{
// expected
}
}
public virtual void TestNoWrappedCollector()
{
foreach (bool cacheScores in new bool[] { false, true })
{
// create w/ null wrapped collector, and test that the methods work
CachingCollector cc = CachingCollector.Create(true, cacheScores, 50 * ONE_BYTE);
cc.SetNextReader(null);
cc.SetScorer(new MockScorer());
cc.Collect(0);
Assert.IsTrue(cc.IsCached);
cc.Replay(new NoOpCollector(true));
}
}
public virtual void TestCachedArraysAllocation()
{
// tests the cached arrays allocation -- if the 'nextLength' was too high,
// caching would terminate even if a smaller length would suffice.
// set RAM limit enough for 150 docs + random(10000)
int numDocs = Random.Next(10000) + 150;
foreach (bool cacheScores in new bool[] { false, true })
{
int bytesPerDoc = cacheScores ? 8 : 4;
CachingCollector cc = CachingCollector.Create(new NoOpCollector(false), cacheScores, bytesPerDoc * ONE_BYTE * numDocs);
cc.SetScorer(new MockScorer());
for (int i = 0; i < numDocs; i++)
{
cc.Collect(i);
}
Assert.IsTrue(cc.IsCached);
// The 151's document should terminate caching
cc.Collect(numDocs);
Assert.IsFalse(cc.IsCached);
}
}
public virtual void TestBasic()
{
foreach (bool cacheScores in new bool[] { false, true })
{
CachingCollector cc = CachingCollector.Create(new NoOpCollector(false), cacheScores, 1.0);
cc.SetScorer(new MockScorer());
// collect 1000 docs
for (int i = 0; i < 1000; i++)
{
cc.Collect(i);
}
// now replay them
cc.Replay(new CollectorAnonymousClass(this));
}
}