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Elasticsearch subproject :server
/*
* Copyright Elasticsearch B.V. and/or licensed to Elasticsearch B.V. under one
* or more contributor license agreements. Licensed under the Elastic License
* 2.0 and the Server Side Public License, v 1; you may not use this file except
* in compliance with, at your election, the Elastic License 2.0 or the Server
* Side Public License, v 1.
*/
package org.elasticsearch.search.aggregations.metrics;
import org.apache.lucene.index.LeafReader;
import org.apache.lucene.index.LeafReaderContext;
import org.apache.lucene.index.PointValues;
import org.apache.lucene.search.ScoreMode;
import org.apache.lucene.util.Bits;
import org.apache.lucene.util.FutureArrays;
import org.elasticsearch.common.util.DoubleArray;
import org.elasticsearch.core.Releasables;
import org.elasticsearch.index.fielddata.NumericDoubleValues;
import org.elasticsearch.index.fielddata.SortedNumericDoubleValues;
import org.elasticsearch.search.DocValueFormat;
import org.elasticsearch.search.MultiValueMode;
import org.elasticsearch.search.aggregations.Aggregator;
import org.elasticsearch.search.aggregations.InternalAggregation;
import org.elasticsearch.search.aggregations.LeafBucketCollector;
import org.elasticsearch.search.aggregations.LeafBucketCollectorBase;
import org.elasticsearch.search.aggregations.support.AggregationContext;
import org.elasticsearch.search.aggregations.support.ValuesSource;
import org.elasticsearch.search.aggregations.support.ValuesSourceConfig;
import java.io.IOException;
import java.util.Map;
import java.util.function.Function;
class MaxAggregator extends NumericMetricsAggregator.SingleValue {
final ValuesSource.Numeric valuesSource;
final DocValueFormat formatter;
final String pointField;
final Function pointConverter;
DoubleArray maxes;
MaxAggregator(String name, ValuesSourceConfig config, AggregationContext context, Aggregator parent, Map metadata)
throws IOException {
super(name, context, parent, metadata);
// TODO stop expecting nulls here
this.valuesSource = config.hasValues() ? (ValuesSource.Numeric) config.getValuesSource() : null;
if (valuesSource != null) {
maxes = context.bigArrays().newDoubleArray(1, false);
maxes.fill(0, maxes.size(), Double.NEGATIVE_INFINITY);
}
this.formatter = config.format();
this.pointConverter = pointReaderIfAvailable(config);
if (pointConverter != null) {
pointField = config.fieldContext().field();
} else {
pointField = null;
}
}
@Override
public ScoreMode scoreMode() {
return valuesSource != null && valuesSource.needsScores() ? ScoreMode.COMPLETE : ScoreMode.COMPLETE_NO_SCORES;
}
@Override
public LeafBucketCollector getLeafCollector(LeafReaderContext ctx, final LeafBucketCollector sub) throws IOException {
if (valuesSource == null) {
return LeafBucketCollector.NO_OP_COLLECTOR;
}
if (pointConverter != null) {
Number segMax = findLeafMaxValue(ctx.reader(), pointField, pointConverter);
if (segMax != null) {
/*
* There is no parent aggregator (see {@link AggregatorBase#getPointReaderOrNull}
* so the ordinal for the bucket is always 0.
*/
assert maxes.size() == 1;
double max = maxes.get(0);
max = Math.max(max, segMax.doubleValue());
maxes.set(0, max);
// the maximum value has been extracted, we don't need to collect hits on this segment.
return LeafBucketCollector.NO_OP_COLLECTOR;
}
}
final SortedNumericDoubleValues allValues = valuesSource.doubleValues(ctx);
final NumericDoubleValues values = MultiValueMode.MAX.select(allValues);
return new LeafBucketCollectorBase(sub, allValues) {
@Override
public void collect(int doc, long bucket) throws IOException {
if (bucket >= maxes.size()) {
long from = maxes.size();
maxes = bigArrays().grow(maxes, bucket + 1);
maxes.fill(from, maxes.size(), Double.NEGATIVE_INFINITY);
}
if (values.advanceExact(doc)) {
final double value = values.doubleValue();
double max = maxes.get(bucket);
max = Math.max(max, value);
maxes.set(bucket, max);
}
}
};
}
@Override
public double metric(long owningBucketOrd) {
if (valuesSource == null || owningBucketOrd >= maxes.size()) {
return Double.NEGATIVE_INFINITY;
}
return maxes.get(owningBucketOrd);
}
@Override
public InternalAggregation buildAggregation(long bucket) {
if (valuesSource == null || bucket >= maxes.size()) {
return buildEmptyAggregation();
}
return new InternalMax(name, maxes.get(bucket), formatter, metadata());
}
@Override
public InternalAggregation buildEmptyAggregation() {
return new InternalMax(name, Double.NEGATIVE_INFINITY, formatter, metadata());
}
@Override
public void doClose() {
Releasables.close(maxes);
}
/**
* Returns the maximum value indexed in the fieldName
field or null
* if the value cannot be inferred from the indexed {@link PointValues}.
*/
static Number findLeafMaxValue(LeafReader reader, String fieldName, Function converter) throws IOException {
final PointValues pointValues = reader.getPointValues(fieldName);
if (pointValues == null) {
return null;
}
final Bits liveDocs = reader.getLiveDocs();
if (liveDocs == null) {
return converter.apply(pointValues.getMaxPackedValue());
}
int numBytes = pointValues.getBytesPerDimension();
final byte[] maxValue = pointValues.getMaxPackedValue();
final byte[][] result = new byte[1][];
pointValues.intersect(new PointValues.IntersectVisitor() {
@Override
public void visit(int docID) {
throw new UnsupportedOperationException();
}
@Override
public void visit(int docID, byte[] packedValue) {
if (liveDocs.get(docID)) {
// we need to collect all values in this leaf (the sort is ascending) where
// the last live doc is guaranteed to contain the max value for the segment.
if (result[0] == null) {
result[0] = new byte[packedValue.length];
}
System.arraycopy(packedValue, 0, result[0], 0, packedValue.length);
}
}
@Override
public PointValues.Relation compare(byte[] minPackedValue, byte[] maxPackedValue) {
if (FutureArrays.equals(maxValue, 0, numBytes, maxPackedValue, 0, numBytes)) {
// we only check leaves that contain the max value for the segment.
return PointValues.Relation.CELL_CROSSES_QUERY;
} else {
return PointValues.Relation.CELL_OUTSIDE_QUERY;
}
}
});
return result[0] != null ? converter.apply(result[0]) : null;
}
}