@Override public PercolateShardResponse doPercolate( PercolateShardRequest request, PercolateContext context) { long count = 0; Engine.Searcher percolatorSearcher = context.indexShard().acquireSearcher("percolate"); try { Count countCollector = count(logger, context); queryBasedPercolating(percolatorSearcher, context, countCollector); count = countCollector.counter(); } catch (Throwable e) { logger.warn("failed to execute", e); } finally { percolatorSearcher.close(); } return new PercolateShardResponse(count, context, request.index(), request.shardId()); }
@Override public PercolateShardResponse doPercolate( PercolateShardRequest request, PercolateContext context) { long count = 0; Lucene.ExistsCollector collector = new Lucene.ExistsCollector(); for (Map.Entry<HashedBytesRef, Query> entry : context.percolateQueries().entrySet()) { collector.reset(); try { context.docSearcher().search(entry.getValue(), collector); } catch (Throwable e) { logger.debug("[" + entry.getKey() + "] failed to execute query", e); throw new PercolateException(context.indexShard().shardId(), "failed to execute", e); } if (collector.exists()) { count++; } } return new PercolateShardResponse(count, context, request.index(), request.shardId()); }
@Override public PercolateShardResponse doPercolate( PercolateShardRequest request, PercolateContext context) { Engine.Searcher percolatorSearcher = context.indexShard().acquireSearcher("percolate"); try { Match match = match(logger, context, highlightPhase); queryBasedPercolating(percolatorSearcher, context, match); List<BytesRef> matches = match.matches(); List<Map<String, HighlightField>> hls = match.hls(); long count = match.counter(); BytesRef[] finalMatches = matches.toArray(new BytesRef[matches.size()]); return new PercolateShardResponse( finalMatches, hls, count, context, request.index(), request.shardId()); } catch (Throwable e) { logger.debug("failed to execute", e); throw new PercolateException(context.indexShard().shardId(), "failed to execute", e); } finally { percolatorSearcher.release(); } }
@Override public PercolateShardResponse doPercolate( PercolateShardRequest request, PercolateContext context) { long count = 0; List<BytesRef> matches = new ArrayList<>(); List<Map<String, HighlightField>> hls = new ArrayList<>(); Lucene.ExistsCollector collector = new Lucene.ExistsCollector(); for (Map.Entry<HashedBytesRef, Query> entry : context.percolateQueries().entrySet()) { collector.reset(); if (context.highlight() != null) { context.parsedQuery( new ParsedQuery(entry.getValue(), ImmutableMap.<String, Filter>of())); context.hitContext().cache().clear(); } try { context.docSearcher().search(entry.getValue(), collector); } catch (Throwable e) { logger.debug("[" + entry.getKey() + "] failed to execute query", e); throw new PercolateException(context.indexShard().shardId(), "failed to execute", e); } if (collector.exists()) { if (!context.limit || count < context.size()) { matches.add(entry.getKey().bytes); if (context.highlight() != null) { highlightPhase.hitExecute(context, context.hitContext()); hls.add(context.hitContext().hit().getHighlightFields()); } } count++; } } BytesRef[] finalMatches = matches.toArray(new BytesRef[matches.size()]); return new PercolateShardResponse( finalMatches, hls, count, context, request.index(), request.shardId()); }
@Override public PercolateShardResponse doPercolate( PercolateShardRequest request, PercolateContext context) { Engine.Searcher percolatorSearcher = context.indexShard().acquireSearcher("percolate"); try { MatchAndSort matchAndSort = QueryCollector.matchAndSort(logger, context); queryBasedPercolating(percolatorSearcher, context, matchAndSort); TopDocs topDocs = matchAndSort.topDocs(); long count = topDocs.totalHits; List<BytesRef> matches = new ArrayList<BytesRef>(topDocs.scoreDocs.length); float[] scores = new float[topDocs.scoreDocs.length]; List<Map<String, HighlightField>> hls = null; if (context.highlight() != null) { hls = new ArrayList<Map<String, HighlightField>>(topDocs.scoreDocs.length); } final FieldMapper<?> idMapper = context.mapperService().smartNameFieldMapper(IdFieldMapper.NAME); final IndexFieldData<?> idFieldData = context.fieldData().getForField(idMapper); int i = 0; final HashedBytesRef spare = new HashedBytesRef(new BytesRef()); for (ScoreDoc scoreDoc : topDocs.scoreDocs) { int segmentIdx = ReaderUtil.subIndex(scoreDoc.doc, percolatorSearcher.reader().leaves()); AtomicReaderContext atomicReaderContext = percolatorSearcher.reader().leaves().get(segmentIdx); BytesValues values = idFieldData.load(atomicReaderContext).getBytesValues(true); final int localDocId = scoreDoc.doc - atomicReaderContext.docBase; final int numValues = values.setDocument(localDocId); assert numValues == 1; spare.bytes = values.nextValue(); spare.hash = values.currentValueHash(); matches.add(values.copyShared()); if (hls != null) { Query query = context.percolateQueries().get(spare); context.parsedQuery(new ParsedQuery(query, ImmutableMap.<String, Filter>of())); context.hitContext().cache().clear(); highlightPhase.hitExecute(context, context.hitContext()); hls.add(i, context.hitContext().hit().getHighlightFields()); } scores[i++] = scoreDoc.score; } if (hls != null) { return new PercolateShardResponse( matches.toArray(new BytesRef[matches.size()]), hls, count, scores, context, request.index(), request.shardId()); } else { return new PercolateShardResponse( matches.toArray(new BytesRef[matches.size()]), count, scores, context, request.index(), request.shardId()); } } catch (Throwable e) { logger.debug("failed to execute", e); throw new PercolateException(context.indexShard().shardId(), "failed to execute", e); } finally { percolatorSearcher.release(); } }