@Test public void testSingleCollector() throws Exception { // Tests that if a single Collector is input, it is returned (and not MultiCollector). DummyCollector dc = new DummyCollector(); assertSame(dc, MultiCollector.wrap(dc)); assertSame(dc, MultiCollector.wrap(dc, null)); }
@Test public void testNullCollectors() throws Exception { // Tests that the collector rejects all null collectors. try { MultiCollector.wrap(null, null); fail("only null collectors should not be supported"); } catch (IllegalArgumentException e) { // expected } // Tests that the collector handles some null collectors well. If it // doesn't, an NPE would be thrown. Collector c = MultiCollector.wrap(new DummyCollector(), null, new DummyCollector()); assertTrue(c instanceof MultiCollector); final LeafCollector ac = c.getLeafCollector(null); ac.collect(1); c.getLeafCollector(null); c.getLeafCollector(null).setScorer(new FakeScorer()); }
public void testCacheScoresIfNecessary() throws IOException { Directory dir = newDirectory(); RandomIndexWriter iw = new RandomIndexWriter(random(), dir); iw.addDocument(new Document()); iw.commit(); DirectoryReader reader = iw.getReader(); iw.close(); final LeafReaderContext ctx = reader.leaves().get(0); try { collector(false, ScoreCachingWrappingScorer.class) .getLeafCollector(ctx) .setScorer(new FakeScorer()); fail( "The collector was configured to expect a ScoreCachingWrappingScorer and did not fail when pass in a FakeScorer"); } catch (AssertionError e) { // expected } // no collector needs scores => no caching Collector c1 = collector(false, FakeScorer.class); Collector c2 = collector(false, FakeScorer.class); MultiCollector.wrap(c1, c2).getLeafCollector(ctx).setScorer(new FakeScorer()); // only one collector needs scores => no caching c1 = collector(true, FakeScorer.class); c2 = collector(false, FakeScorer.class); MultiCollector.wrap(c1, c2).getLeafCollector(ctx).setScorer(new FakeScorer()); // several collectors need scores => caching c1 = collector(true, ScoreCachingWrappingScorer.class); c2 = collector(true, ScoreCachingWrappingScorer.class); MultiCollector.wrap(c1, c2).getLeafCollector(ctx).setScorer(new FakeScorer()); reader.close(); dir.close(); }
@Override public void preProcess(SearchContext context) { // add specific facets to nested queries... if (context.nestedQueries() != null) { for (Map.Entry<String, BlockJoinQuery> entry : context.nestedQueries().entrySet()) { List<Collector> collectors = context.searcher().removeCollectors(entry.getKey()); if (collectors != null && !collectors.isEmpty()) { if (collectors.size() == 1) { entry.getValue().setCollector(collectors.get(0)); } else { entry .getValue() .setCollector( MultiCollector.wrap(collectors.toArray(new Collector[collectors.size()]))); } } } } }
@Test public void testCollector() throws Exception { // Tests that the collector delegates calls to input collectors properly. // Tests that the collector handles some null collectors well. If it // doesn't, an NPE would be thrown. DummyCollector[] dcs = new DummyCollector[] {new DummyCollector(), new DummyCollector()}; Collector c = MultiCollector.wrap(dcs); LeafCollector ac = c.getLeafCollector(null); ac.collect(1); ac = c.getLeafCollector(null); ac.setScorer(new FakeScorer()); for (DummyCollector dc : dcs) { assertTrue(dc.collectCalled); assertTrue(dc.setNextReaderCalled); assertTrue(dc.setScorerCalled); } }
@Test public void testRandom() throws Exception { Directory directory = newDirectory(); final Random r = random(); final IndexWriterConfig iwc = LuceneTestCase.newIndexWriterConfig(r, new MockAnalyzer(r)) .setMaxBufferedDocs(IndexWriterConfig.DISABLE_AUTO_FLUSH) .setRAMBufferSizeMB( scaledRandomIntBetween(16, 64)); // we might index a lot - don't go crazy here RandomIndexWriter indexWriter = new RandomIndexWriter(r, directory, iwc); int numUniqueChildValues = scaledRandomIntBetween(100, 2000); String[] childValues = new String[numUniqueChildValues]; for (int i = 0; i < numUniqueChildValues; i++) { childValues[i] = Integer.toString(i); } IntOpenHashSet filteredOrDeletedDocs = new IntOpenHashSet(); int childDocId = 0; int numParentDocs = scaledRandomIntBetween(1, numUniqueChildValues); ObjectObjectOpenHashMap<String, NavigableMap<String, FloatArrayList>> childValueToParentIds = new ObjectObjectOpenHashMap<>(); for (int parentDocId = 0; parentDocId < numParentDocs; parentDocId++) { boolean markParentAsDeleted = rarely(); boolean filterMe = rarely(); String parent = Integer.toString(parentDocId); Document document = new Document(); document.add( new StringField(UidFieldMapper.NAME, Uid.createUid("parent", parent), Field.Store.YES)); document.add(new StringField(TypeFieldMapper.NAME, "parent", Field.Store.NO)); if (markParentAsDeleted) { filteredOrDeletedDocs.add(parentDocId); document.add(new StringField("delete", "me", Field.Store.NO)); } if (filterMe) { filteredOrDeletedDocs.add(parentDocId); document.add(new StringField("filter", "me", Field.Store.NO)); } indexWriter.addDocument(document); int numChildDocs = scaledRandomIntBetween(0, 100); for (int i = 0; i < numChildDocs; i++) { boolean markChildAsDeleted = rarely(); String childValue = childValues[random().nextInt(childValues.length)]; document = new Document(); document.add( new StringField( UidFieldMapper.NAME, Uid.createUid("child", Integer.toString(childDocId++)), Field.Store.NO)); document.add(new StringField(TypeFieldMapper.NAME, "child", Field.Store.NO)); document.add( new StringField( ParentFieldMapper.NAME, Uid.createUid("parent", parent), Field.Store.NO)); document.add(new StringField("field1", childValue, Field.Store.NO)); if (markChildAsDeleted) { document.add(new StringField("delete", "me", Field.Store.NO)); } indexWriter.addDocument(document); if (!markChildAsDeleted) { NavigableMap<String, FloatArrayList> parentIdToChildScores; if (childValueToParentIds.containsKey(childValue)) { parentIdToChildScores = childValueToParentIds.lget(); } else { childValueToParentIds.put(childValue, parentIdToChildScores = new TreeMap<>()); } if (!markParentAsDeleted && !filterMe) { FloatArrayList childScores = parentIdToChildScores.get(parent); if (childScores == null) { parentIdToChildScores.put(parent, childScores = new FloatArrayList()); } childScores.add(1f); } } } } // Delete docs that are marked to be deleted. indexWriter.deleteDocuments(new Term("delete", "me")); indexWriter.commit(); IndexReader indexReader = DirectoryReader.open(directory); IndexSearcher searcher = new IndexSearcher(indexReader); Engine.Searcher engineSearcher = new Engine.Searcher(ChildrenQueryTests.class.getSimpleName(), searcher); ((TestSearchContext) SearchContext.current()) .setSearcher(new ContextIndexSearcher(SearchContext.current(), engineSearcher)); int max = numUniqueChildValues / 4; for (int i = 0; i < max; i++) { // Simulate a parent update if (random().nextBoolean()) { final int numberOfUpdatableParents = numParentDocs - filteredOrDeletedDocs.size(); int numberOfUpdates = RandomInts.randomIntBetween( random(), 0, Math.min(numberOfUpdatableParents, TEST_NIGHTLY ? 25 : 5)); for (int j = 0; j < numberOfUpdates; j++) { int parentId; do { parentId = random().nextInt(numParentDocs); } while (filteredOrDeletedDocs.contains(parentId)); String parentUid = Uid.createUid("parent", Integer.toString(parentId)); indexWriter.deleteDocuments(new Term(UidFieldMapper.NAME, parentUid)); Document document = new Document(); document.add(new StringField(UidFieldMapper.NAME, parentUid, Field.Store.YES)); document.add(new StringField(TypeFieldMapper.NAME, "parent", Field.Store.NO)); indexWriter.addDocument(document); } indexReader.close(); indexReader = DirectoryReader.open(indexWriter.w, true); searcher = new IndexSearcher(indexReader); engineSearcher = new Engine.Searcher(ChildrenConstantScoreQueryTests.class.getSimpleName(), searcher); ((TestSearchContext) SearchContext.current()) .setSearcher(new ContextIndexSearcher(SearchContext.current(), engineSearcher)); } String childValue = childValues[random().nextInt(numUniqueChildValues)]; int shortCircuitParentDocSet = random().nextInt(numParentDocs); ScoreType scoreType = ScoreType.values()[random().nextInt(ScoreType.values().length)]; // leave min/max set to 0 half the time int minChildren = random().nextInt(2) * scaledRandomIntBetween(0, 110); int maxChildren = random().nextInt(2) * scaledRandomIntBetween(minChildren, 110); QueryBuilder queryBuilder = hasChildQuery("child", constantScoreQuery(termQuery("field1", childValue))) .scoreType(scoreType.name().toLowerCase(Locale.ENGLISH)) .minChildren(minChildren) .maxChildren(maxChildren) .setShortCircuitCutoff(shortCircuitParentDocSet); // Using a FQ, will invoke / test the Scorer#advance(..) and also let the Weight#scorer not // get live docs as acceptedDocs queryBuilder = filteredQuery(queryBuilder, notFilter(termFilter("filter", "me"))); Query query = parseQuery(queryBuilder); BitSetCollector collector = new BitSetCollector(indexReader.maxDoc()); int numHits = 1 + random().nextInt(25); TopScoreDocCollector actualTopDocsCollector = TopScoreDocCollector.create(numHits); searcher.search(query, MultiCollector.wrap(collector, actualTopDocsCollector)); FixedBitSet actualResult = collector.getResult(); FixedBitSet expectedResult = new FixedBitSet(indexReader.maxDoc()); TopScoreDocCollector expectedTopDocsCollector = TopScoreDocCollector.create(numHits); if (childValueToParentIds.containsKey(childValue)) { LeafReader slowLeafReader = SlowCompositeReaderWrapper.wrap(indexReader); final FloatArrayList[] scores = new FloatArrayList[slowLeafReader.maxDoc()]; Terms terms = slowLeafReader.terms(UidFieldMapper.NAME); if (terms != null) { NavigableMap<String, FloatArrayList> parentIdToChildScores = childValueToParentIds.lget(); TermsEnum termsEnum = terms.iterator(null); DocsEnum docsEnum = null; for (Map.Entry<String, FloatArrayList> entry : parentIdToChildScores.entrySet()) { int count = entry.getValue().elementsCount; if (count >= minChildren && (maxChildren == 0 || count <= maxChildren)) { TermsEnum.SeekStatus seekStatus = termsEnum.seekCeil(Uid.createUidAsBytes("parent", entry.getKey())); if (seekStatus == TermsEnum.SeekStatus.FOUND) { docsEnum = termsEnum.docs(slowLeafReader.getLiveDocs(), docsEnum, DocsEnum.FLAG_NONE); expectedResult.set(docsEnum.nextDoc()); scores[docsEnum.docID()] = new FloatArrayList(entry.getValue()); } else if (seekStatus == TermsEnum.SeekStatus.END) { break; } } } } MockScorer mockScorer = new MockScorer(scoreType); final LeafCollector leafCollector = expectedTopDocsCollector.getLeafCollector(slowLeafReader.getContext()); leafCollector.setScorer(mockScorer); for (int doc = expectedResult.nextSetBit(0); doc < slowLeafReader.maxDoc(); doc = doc + 1 >= expectedResult.length() ? DocIdSetIterator.NO_MORE_DOCS : expectedResult.nextSetBit(doc + 1)) { mockScorer.scores = scores[doc]; leafCollector.collect(doc); } } assertBitSet(actualResult, expectedResult, searcher); assertTopDocs(actualTopDocsCollector.topDocs(), expectedTopDocsCollector.topDocs()); } indexWriter.close(); indexReader.close(); directory.close(); }
@Override public void execute(SearchContext context) throws ElasticSearchException { if (context.facets() == null || context.facets().facetCollectors() == null) { return; } if (context.queryResult().facets() != null) { // no need to compute the facets twice, they should be computed on a per context basis return; } // optimize global facet execution, based on filters (don't iterate over all docs), and check // if we have special facets that can be optimized for all execution, do it List<Collector> collectors = context.searcher().removeCollectors(ContextIndexSearcher.Scopes.GLOBAL); if (collectors != null && !collectors.isEmpty()) { Map<Filter, List<Collector>> filtersByCollector = Maps.newHashMap(); for (Collector collector : collectors) { if (collector instanceof OptimizeGlobalFacetCollector) { try { ((OptimizeGlobalFacetCollector) collector).optimizedGlobalExecution(context); } catch (IOException e) { throw new QueryPhaseExecutionException(context, "Failed to execute global facets", e); } } else { Filter filter = Queries.MATCH_ALL_FILTER; if (collector instanceof AbstractFacetCollector) { AbstractFacetCollector facetCollector = (AbstractFacetCollector) collector; if (facetCollector.getFilter() != null) { // we can clear the filter, since we are anyhow going to iterate over it // so no need to double check it... filter = facetCollector.getAndClearFilter(); } } List<Collector> list = filtersByCollector.get(filter); if (list == null) { list = new ArrayList<Collector>(); filtersByCollector.put(filter, list); } list.add(collector); } } // now, go and execute the filters->collector ones for (Map.Entry<Filter, List<Collector>> entry : filtersByCollector.entrySet()) { Filter filter = entry.getKey(); Query query = new DeletionAwareConstantScoreQuery(filter); Filter searchFilter = context.mapperService().searchFilter(context.types()); if (searchFilter != null) { query = new FilteredQuery(query, context.filterCache().cache(searchFilter)); } try { context .searcher() .search( query, MultiCollector.wrap( entry.getValue().toArray(new Collector[entry.getValue().size()]))); } catch (IOException e) { throw new QueryPhaseExecutionException(context, "Failed to execute global facets", e); } } } SearchContextFacets contextFacets = context.facets(); List<Facet> facets = Lists.newArrayListWithCapacity(2); if (contextFacets.facetCollectors() != null) { for (FacetCollector facetCollector : contextFacets.facetCollectors()) { facets.add(facetCollector.facet()); } } context.queryResult().facets(new InternalFacets(facets)); }
@Test public void testRandom() throws Exception { Directory directory = newDirectory(); RandomIndexWriter indexWriter = new RandomIndexWriter(random(), directory); int numUniqueChildValues = 1 + random().nextInt(TEST_NIGHTLY ? 6000 : 600); String[] childValues = new String[numUniqueChildValues]; for (int i = 0; i < numUniqueChildValues; i++) { childValues[i] = Integer.toString(i); } int childDocId = 0; int numParentDocs = 1 + random().nextInt(TEST_NIGHTLY ? 20000 : 1000); ObjectObjectOpenHashMap<String, NavigableMap<String, FloatArrayList>> childValueToParentIds = new ObjectObjectOpenHashMap<String, NavigableMap<String, FloatArrayList>>(); for (int parentDocId = 0; parentDocId < numParentDocs; parentDocId++) { boolean markParentAsDeleted = rarely(); String parent = Integer.toString(parentDocId); Document document = new Document(); document.add( new StringField(UidFieldMapper.NAME, Uid.createUid("parent", parent), Field.Store.YES)); document.add(new StringField(TypeFieldMapper.NAME, "parent", Field.Store.NO)); if (markParentAsDeleted) { document.add(new StringField("delete", "me", Field.Store.NO)); } indexWriter.addDocument(document); int numChildDocs = random().nextInt(TEST_NIGHTLY ? 100 : 25); for (int i = 0; i < numChildDocs; i++) { boolean markChildAsDeleted = rarely(); String childValue = childValues[random().nextInt(childValues.length)]; document = new Document(); document.add( new StringField( UidFieldMapper.NAME, Uid.createUid("child", Integer.toString(childDocId)), Field.Store.NO)); document.add(new StringField(TypeFieldMapper.NAME, "child", Field.Store.NO)); document.add( new StringField( ParentFieldMapper.NAME, Uid.createUid("parent", parent), Field.Store.NO)); document.add(new StringField("field1", childValue, Field.Store.NO)); if (markChildAsDeleted) { document.add(new StringField("delete", "me", Field.Store.NO)); } indexWriter.addDocument(document); if (!markChildAsDeleted) { NavigableMap<String, FloatArrayList> parentIdToChildScores; if (childValueToParentIds.containsKey(childValue)) { parentIdToChildScores = childValueToParentIds.lget(); } else { childValueToParentIds.put( childValue, parentIdToChildScores = new TreeMap<String, FloatArrayList>()); } if (!markParentAsDeleted) { FloatArrayList childScores = parentIdToChildScores.get(parent); if (childScores == null) { parentIdToChildScores.put(parent, childScores = new FloatArrayList()); } childScores.add(1f); } } } } // Delete docs that are marked to be deleted. indexWriter.deleteDocuments(new Term("delete", "me")); indexWriter.close(); IndexReader indexReader = DirectoryReader.open(directory); IndexSearcher searcher = new IndexSearcher(indexReader); Engine.Searcher engineSearcher = new Engine.SimpleSearcher(ChildrenQueryTests.class.getSimpleName(), searcher); ((TestSearchContext) SearchContext.current()) .setSearcher(new ContextIndexSearcher(SearchContext.current(), engineSearcher)); TermFilter parentFilter = new TermFilter(new Term(TypeFieldMapper.NAME, "parent")); for (String childValue : childValues) { Query childQuery = new ConstantScoreQuery(new TermQuery(new Term("field1", childValue))); int shortCircuitParentDocSet = random().nextInt(numParentDocs); ScoreType scoreType = ScoreType.values()[random().nextInt(ScoreType.values().length)]; Query query = new ChildrenQuery( "parent", "child", parentFilter, childQuery, scoreType, shortCircuitParentDocSet); BitSetCollector collector = new BitSetCollector(indexReader.maxDoc()); int numHits = 1 + random().nextInt(25); TopScoreDocCollector actualTopDocsCollector = TopScoreDocCollector.create(numHits, false); searcher.search(query, MultiCollector.wrap(collector, actualTopDocsCollector)); FixedBitSet actualResult = collector.getResult(); FixedBitSet expectedResult = new FixedBitSet(indexReader.maxDoc()); MockScorer mockScorer = new MockScorer(scoreType); TopScoreDocCollector expectedTopDocsCollector = TopScoreDocCollector.create(numHits, false); expectedTopDocsCollector.setScorer(mockScorer); if (childValueToParentIds.containsKey(childValue)) { AtomicReader slowAtomicReader = SlowCompositeReaderWrapper.wrap(indexReader); Terms terms = slowAtomicReader.terms(UidFieldMapper.NAME); if (terms != null) { NavigableMap<String, FloatArrayList> parentIdToChildScores = childValueToParentIds.lget(); TermsEnum termsEnum = terms.iterator(null); DocsEnum docsEnum = null; for (Map.Entry<String, FloatArrayList> entry : parentIdToChildScores.entrySet()) { TermsEnum.SeekStatus seekStatus = termsEnum.seekCeil(Uid.createUidAsBytes("parent", entry.getKey())); if (seekStatus == TermsEnum.SeekStatus.FOUND) { docsEnum = termsEnum.docs(slowAtomicReader.getLiveDocs(), docsEnum, DocsEnum.FLAG_NONE); expectedResult.set(docsEnum.nextDoc()); mockScorer.scores = entry.getValue(); expectedTopDocsCollector.collect(docsEnum.docID()); } else if (seekStatus == TermsEnum.SeekStatus.END) { break; } } } } assertBitSet(actualResult, expectedResult, searcher); assertTopDocs(actualTopDocsCollector.topDocs(), expectedTopDocsCollector.topDocs()); } indexReader.close(); directory.close(); }