@Override public void collect(int doc) throws IOException { if (values != null) { long ord = ordinals.getOrd(doc); long parentIdx = parentIdsIndex.get(ord); if (parentIdx < 0) { final BytesRef bytes = values.getValueByOrd(ord); final int hash = values.currentValueHash(); parentIdx = parentIds.add(bytes, hash); if (parentIdx < 0) { parentIdx = -parentIdx - 1; doScore(parentIdx); } else { scores = bigArrays.grow(scores, parentIdx + 1); scores.set(parentIdx, scorer.score()); } parentIdsIndex.set(ord, parentIdx); } else { doScore(parentIdx); } } }
@Override public InternalAggregation buildAggregation(long owningBucketOrdinal) throws IOException { assert owningBucketOrdinal == 0; if (bucketCountThresholds.getMinDocCount() == 0 && (order != InternalOrder.COUNT_DESC || bucketOrds.size() < bucketCountThresholds.getRequiredSize())) { // we need to fill-in the blanks for (LeafReaderContext ctx : context.searcher().getTopReaderContext().leaves()) { final SortedBinaryDocValues values = valuesSource.bytesValues(ctx); // brute force for (int docId = 0; docId < ctx.reader().maxDoc(); ++docId) { values.setDocument(docId); final int valueCount = values.count(); for (int i = 0; i < valueCount; ++i) { final BytesRef term = values.valueAt(i); if (includeExclude == null || includeExclude.accept(term)) { bucketOrds.add(term); } } } } } final int size = (int) Math.min(bucketOrds.size(), bucketCountThresholds.getShardSize()); long otherDocCount = 0; BucketPriorityQueue<StringTerms.Bucket> ordered = new BucketPriorityQueue<>(size, order.comparator(this)); StringTerms.Bucket spare = null; for (int i = 0; i < bucketOrds.size(); i++) { if (spare == null) { spare = new StringTerms.Bucket(new BytesRef(), 0, null, showTermDocCountError, 0, format); } bucketOrds.get(i, spare.termBytes); spare.docCount = bucketDocCount(i); otherDocCount += spare.docCount; spare.bucketOrd = i; if (bucketCountThresholds.getShardMinDocCount() <= spare.docCount) { spare = ordered.insertWithOverflow(spare); } } // Get the top buckets final StringTerms.Bucket[] list = new StringTerms.Bucket[ordered.size()]; long survivingBucketOrds[] = new long[ordered.size()]; for (int i = ordered.size() - 1; i >= 0; --i) { final StringTerms.Bucket bucket = (StringTerms.Bucket) ordered.pop(); survivingBucketOrds[i] = bucket.bucketOrd; list[i] = bucket; otherDocCount -= bucket.docCount; } // replay any deferred collections runDeferredCollections(survivingBucketOrds); // Now build the aggs for (int i = 0; i < list.length; i++) { final StringTerms.Bucket bucket = (StringTerms.Bucket) list[i]; bucket.termBytes = BytesRef.deepCopyOf(bucket.termBytes); bucket.aggregations = bucketAggregations(bucket.bucketOrd); bucket.docCountError = 0; } return new StringTerms( name, order, bucketCountThresholds.getRequiredSize(), bucketCountThresholds.getMinDocCount(), pipelineAggregators(), metaData(), format, bucketCountThresholds.getShardSize(), showTermDocCountError, otherDocCount, Arrays.asList(list), 0); }