/* * 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", the "GNU Affero General Public License v3.0 only", 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", the "GNU Affero General Public * License v3.0 only", or the "Server Side Public License, v 1". */ package org.elasticsearch.search.aggregations.bucket.terms; import org.elasticsearch.common.util.Maps; import org.elasticsearch.search.DocValueFormat; import org.elasticsearch.search.aggregations.BucketOrder; import org.elasticsearch.search.aggregations.InternalAggregations; import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.HashSet; import java.util.List; import java.util.Map; import java.util.Set; public class LongTermsTests extends InternalTermsTestCase { @Override protected InternalTerms createTestInstance( String name, Map metadata, InternalAggregations aggregations, boolean showTermDocCountError, long docCountError ) { BucketOrder order = BucketOrder.count(false); long minDocCount = 1; int requiredSize = 3; int shardSize = requiredSize + 2; DocValueFormat format = randomNumericDocValueFormat(); long otherDocCount = 0; List buckets = new ArrayList<>(); final int numBuckets = randomNumberOfBuckets(); Set terms = new HashSet<>(); for (int i = 0; i < numBuckets; ++i) { long term = randomValueOtherThanMany(l -> terms.add(l) == false, random()::nextLong); int docCount = randomIntBetween(1, 100); buckets.add(new LongTerms.Bucket(term, docCount, aggregations, showTermDocCountError, docCountError, format)); } BucketOrder reduceOrder = rarely() ? order : BucketOrder.key(true); Collections.sort(buckets, reduceOrder.comparator()); return new LongTerms( name, reduceOrder, order, requiredSize, minDocCount, metadata, format, shardSize, showTermDocCountError, otherDocCount, buckets, docCountError ); } @Override protected InternalTerms mutateInstance(InternalTerms instance) { if (instance instanceof LongTerms longTerms) { String name = longTerms.getName(); BucketOrder order = longTerms.order; int requiredSize = longTerms.requiredSize; long minDocCount = longTerms.minDocCount; DocValueFormat format = longTerms.format; int shardSize = longTerms.getShardSize(); boolean showTermDocCountError = longTerms.showTermDocCountError; long otherDocCount = longTerms.getSumOfOtherDocCounts(); List buckets = longTerms.getBuckets(); long docCountError = longTerms.getDocCountError(); Map metadata = longTerms.getMetadata(); switch (between(0, 8)) { case 0 -> name += randomAlphaOfLength(5); case 1 -> requiredSize += between(1, 100); case 2 -> minDocCount += between(1, 100); case 3 -> shardSize += between(1, 100); case 4 -> showTermDocCountError = showTermDocCountError == false; case 5 -> otherDocCount += between(1, 100); case 6 -> docCountError += between(1, 100); case 7 -> { buckets = new ArrayList<>(buckets); buckets.add( new LongTerms.Bucket( randomLong(), randomNonNegativeLong(), InternalAggregations.EMPTY, showTermDocCountError, docCountError, format ) ); } case 8 -> { if (metadata == null) { metadata = Maps.newMapWithExpectedSize(1); } else { metadata = new HashMap<>(instance.getMetadata()); } metadata.put(randomAlphaOfLength(15), randomInt()); } default -> throw new AssertionError("Illegal randomisation branch"); } Collections.sort(buckets, longTerms.reduceOrder.comparator()); return new LongTerms( name, longTerms.reduceOrder, order, requiredSize, minDocCount, metadata, format, shardSize, showTermDocCountError, otherDocCount, buckets, docCountError ); } else { String name = instance.getName(); BucketOrder order = instance.order; int requiredSize = instance.requiredSize; long minDocCount = instance.minDocCount; Map metadata = instance.getMetadata(); switch (between(0, 3)) { case 0 -> name += randomAlphaOfLength(5); case 1 -> requiredSize += between(1, 100); case 2 -> minDocCount += between(1, 100); case 3 -> { if (metadata == null) { metadata = Maps.newMapWithExpectedSize(1); } else { metadata = new HashMap<>(instance.getMetadata()); } metadata.put(randomAlphaOfLength(15), randomInt()); } default -> throw new AssertionError("Illegal randomisation branch"); } return new UnmappedTerms(name, order, requiredSize, minDocCount, metadata); } } }