xiangfu0 commented on code in PR #17872: URL: https://github.com/apache/pinot/pull/17872#discussion_r3036693834
########## pinot-core/src/main/java/org/apache/pinot/core/operator/query/InvertedIndexDistinctOperator.java: ########## @@ -0,0 +1,739 @@ +/** + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you under the Apache License, Version 2.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY + * KIND, either express or implied. See the License for the + * specific language governing permissions and limitations + * under the License. + */ +package org.apache.pinot.core.operator.query; + +import com.google.common.base.CaseFormat; +import java.math.BigDecimal; +import java.util.Collections; +import java.util.List; +import java.util.NavigableMap; +import java.util.TreeMap; +import java.util.stream.Collectors; +import javax.annotation.Nullable; +import org.apache.pinot.common.request.context.ExpressionContext; +import org.apache.pinot.common.request.context.OrderByExpressionContext; +import org.apache.pinot.common.utils.DataSchema; +import org.apache.pinot.common.utils.DataSchema.ColumnDataType; +import org.apache.pinot.common.utils.config.QueryOptionsUtils; +import org.apache.pinot.core.common.Operator; +import org.apache.pinot.core.operator.BaseOperator; +import org.apache.pinot.core.operator.BaseProjectOperator; +import org.apache.pinot.core.operator.ExecutionStatistics; +import org.apache.pinot.core.operator.ExplainAttributeBuilder; +import org.apache.pinot.core.operator.blocks.ValueBlock; +import org.apache.pinot.core.operator.blocks.results.DistinctResultsBlock; +import org.apache.pinot.core.operator.filter.BaseFilterOperator; +import org.apache.pinot.core.operator.filter.BitmapBasedFilterOperator; +import org.apache.pinot.core.plan.DocIdSetPlanNode; +import org.apache.pinot.core.plan.ProjectPlanNode; +import org.apache.pinot.core.query.distinct.DistinctExecutor; +import org.apache.pinot.core.query.distinct.DistinctExecutorFactory; +import org.apache.pinot.core.query.distinct.table.BigDecimalDistinctTable; +import org.apache.pinot.core.query.distinct.table.BytesDistinctTable; +import org.apache.pinot.core.query.distinct.table.DictIdDistinctTable; +import org.apache.pinot.core.query.distinct.table.DistinctTable; +import org.apache.pinot.core.query.distinct.table.DoubleDistinctTable; +import org.apache.pinot.core.query.distinct.table.FloatDistinctTable; +import org.apache.pinot.core.query.distinct.table.IntDistinctTable; +import org.apache.pinot.core.query.distinct.table.LongDistinctTable; +import org.apache.pinot.core.query.distinct.table.StringDistinctTable; +import org.apache.pinot.core.query.request.context.QueryContext; +import org.apache.pinot.segment.spi.IndexSegment; +import org.apache.pinot.segment.spi.SegmentContext; +import org.apache.pinot.segment.spi.datasource.DataSource; +import org.apache.pinot.segment.spi.datasource.DataSourceMetadata; +import org.apache.pinot.segment.spi.index.reader.Dictionary; +import org.apache.pinot.segment.spi.index.reader.InvertedIndexReader; +import org.apache.pinot.segment.spi.index.reader.NullValueVectorReader; +import org.apache.pinot.segment.spi.index.reader.SortedIndexReader; +import org.apache.pinot.spi.query.QueryThreadContext; +import org.apache.pinot.spi.utils.ByteArray; +import org.apache.pinot.spi.utils.Pairs; +import org.roaringbitmap.PeekableIntIterator; +import org.roaringbitmap.buffer.ImmutableRoaringBitmap; +import org.roaringbitmap.buffer.MutableRoaringBitmap; + + +/** + * Inverted-index-based operator for single-column distinct queries on a single segment. + * + * <p>Supports three execution paths, chosen at runtime: + * <ul> + * <li><b>Sorted index path</b>: For sorted columns, merge-iterates filter bitmap against contiguous doc ranges. + * Cost ~ O(cardinality + filteredDocs). Always chosen when the column has a sorted forward index.</li> + * <li><b>Bitmap inverted index path</b>: Iterates dictionary entries and uses inverted index bitmap intersections + * to check filter membership. Avoids the projection pipeline entirely. Chosen by cost heuristic when dictionary + * cardinality is much smaller than the filtered doc count.</li> + * <li><b>Scan path (fallback)</b>: Uses ProjectOperator + DistinctExecutor to scan filtered docs. + * Used when the cost heuristic determines scanning is cheaper.</li> + * </ul> + * + * <p>Enabled via the {@code useIndexBasedDistinctOperator} query option. The cost ratio can be tuned + * via the {@code invertedIndexDistinctCostRatio} query option. + */ +public class InvertedIndexDistinctOperator extends BaseOperator<DistinctResultsBlock> { + private static final String EXPLAIN_NAME = "DISTINCT_INVERTED_INDEX"; + private static final String EXPLAIN_NAME_SORTED_INDEX = "DISTINCT_SORTED_INDEX"; + private static final String EXPLAIN_NAME_SCAN_FALLBACK = "DISTINCT"; + + private final IndexSegment _indexSegment; + private final SegmentContext _segmentContext; + private final QueryContext _queryContext; + private final BaseFilterOperator _filterOperator; + private final DataSource _dataSource; + private final Dictionary _dictionary; + private final InvertedIndexReader<?> _invertedIndexReader; + + // Scan path: created lazily when scan fallback is chosen + private BaseProjectOperator<?> _projectOperator; + + // Execution tracking + private boolean _usedInvertedIndexPath = false; + private int _numDocsScanned = 0; + private int _numEntriesExamined = 0; + private long _numEntriesScannedInFilter = 0; + + /** + * Creates an InvertedIndexDistinctOperator. The caller (DistinctPlanNode) must verify that the column + * has both a dictionary and an inverted index before constructing this operator. + */ + public InvertedIndexDistinctOperator(IndexSegment indexSegment, SegmentContext segmentContext, + QueryContext queryContext, BaseFilterOperator filterOperator, DataSource dataSource) { + _indexSegment = indexSegment; + _segmentContext = segmentContext; + _queryContext = queryContext; + _filterOperator = filterOperator; + _dataSource = dataSource; + _dictionary = dataSource.getDictionary(); + _invertedIndexReader = dataSource.getInvertedIndex(); + } + + @Override + protected DistinctResultsBlock getNextBlock() { + // Sorted index: always use the sorted path — O(cardinality + filteredDocs) merge iteration + if (_invertedIndexReader instanceof SortedIndexReader) { + ImmutableRoaringBitmap filteredDocIds = buildFilteredDocIds(); + _usedInvertedIndexPath = true; + return executeSortedIndexPath((SortedIndexReader<?>) _invertedIndexReader, filteredDocIds); + } + + // Prefer cheap count-only inputs for the heuristic so scan fallback can keep the original filter pipeline. + FilterPreparation filterPreparation = prepareBitmapPathInput(); + + // Bitmap inverted index: use cost heuristic to decide + if (filterPreparation.getFilteredDocCount() != null + && shouldUseBitmapInvertedIndex(filterPreparation.getFilteredDocCount())) { + ImmutableRoaringBitmap filteredDocIds = filterPreparation.getFilteredDocIds(); + if (filteredDocIds == null) { + filteredDocIds = buildFilteredDocIds(); + } + _usedInvertedIndexPath = true; + return executeInvertedIndexPath(filteredDocIds); + } + return executeScanPath(filterPreparation.getFilteredDocIds()); + } + + // ==================== Cost Heuristic ==================== + + /** + * Default cost ratios for the inverted-index-based distinct heuristic, keyed by dictionary cardinality threshold. + * The inverted index path is chosen when {@code dictionaryCardinality * costRatio <= filteredDocCount}. + * + * <p>The cost ratio accounts for the per-entry bitmap intersection cost relative to the per-doc scan cost. + * For low-cardinality dictionaries, each bitmap is dense and {@code intersects()} is fast, but there are few + * entries so any unnecessary intersection is relatively expensive vs. scanning a small filtered doc set. + * For high-cardinality dictionaries, bitmaps are sparser and {@code intersects()} is slower per entry, + * but the scan path also becomes cheaper (fewer docs per value), so a lower ratio suffices. + * + * <p>Benchmarking (BenchmarkInvertedIndexDistinct, 1M docs) shows the crossover points: + * <ul> + * <li>dictCard ≤ 1K: costRatio=30 — inverted index wins when filteredDocs ≥ ~30x dictCard</li> + * <li>dictCard ≤ 10K: costRatio=10 — inverted index wins when filteredDocs ≥ ~10x dictCard</li> + * <li>dictCard > 10K: costRatio=6 — inverted index wins when filteredDocs ≥ ~6x dictCard</li> + * </ul> + * + * <p>Can be overridden at query time via the query option {@code invertedIndexDistinctCostRatio}. + */ + static final NavigableMap<Integer, Double> DEFAULT_COST_RATIO_BY_CARDINALITY; + + static { + TreeMap<Integer, Double> map = new TreeMap<>(); + map.put(0, 30.0); // dictCard <= 1000: costRatio = 30 + map.put(1_001, 10.0); // dictCard 1001..10000: costRatio = 10 + map.put(10_001, 6.0); // dictCard > 10000: costRatio = 6 + DEFAULT_COST_RATIO_BY_CARDINALITY = Collections.unmodifiableNavigableMap(map); + } + + static double getDefaultCostRatio(int dictionaryCardinality) { + return DEFAULT_COST_RATIO_BY_CARDINALITY.floorEntry(dictionaryCardinality).getValue(); + } + + private boolean shouldUseBitmapInvertedIndex(int filteredDocCount) { + int dictionaryCardinality = _dictionary.length(); + if (filteredDocCount == 0) { + return false; + } + Double costRatioOverride = QueryOptionsUtils.getInvertedIndexDistinctCostRatio(_queryContext.getQueryOptions()); + double costRatio = costRatioOverride != null ? costRatioOverride : getDefaultCostRatio(dictionaryCardinality); + return (double) dictionaryCardinality * costRatio <= filteredDocCount; + } + + static final class FilterPreparation { + @Nullable + private final ImmutableRoaringBitmap _filteredDocIds; + @Nullable + private final Integer _filteredDocCount; + + private FilterPreparation(@Nullable ImmutableRoaringBitmap filteredDocIds, @Nullable Integer filteredDocCount) { + _filteredDocIds = filteredDocIds; + _filteredDocCount = filteredDocCount; + } + + @Nullable + ImmutableRoaringBitmap getFilteredDocIds() { + return _filteredDocIds; + } + + @Nullable + Integer getFilteredDocCount() { + return _filteredDocCount; + } + } + + FilterPreparation prepareBitmapPathInput() { + int totalDocs = _indexSegment.getSegmentMetadata().getTotalDocs(); + if (_filterOperator.isResultMatchingAll()) { + return new FilterPreparation(null, totalDocs); + } + if (_filterOperator.isResultEmpty()) { + return new FilterPreparation(new MutableRoaringBitmap(), 0); + } + if (_filterOperator.canProduceBitmaps()) { + ImmutableRoaringBitmap filteredDocIds = _filterOperator.getBitmaps().reduce(); + return new FilterPreparation(filteredDocIds, filteredDocIds.getCardinality()); + } + if (_filterOperator.canOptimizeCount()) { + return new FilterPreparation(null, _filterOperator.getNumMatchingDocs()); + } + return new FilterPreparation(null, null); + } + + // ==================== Scan Path (Fallback) ==================== + + /** + * Scan fallback: uses ProjectOperator + DistinctExecutor. When an exact filter bitmap is already cheaply available, + * wraps it in a {@link BitmapBasedFilterOperator} to avoid re-evaluating the filter through the projection pipeline. + * Otherwise preserves the original filter operator so scan fallback does not pay eager bitmap materialization. + */ + private DistinctResultsBlock executeScanPath(@Nullable ImmutableRoaringBitmap filteredDocIds) { + BaseFilterOperator filterOp; + if (filteredDocIds != null) { + filterOp = new BitmapBasedFilterOperator(filteredDocIds, false, + _indexSegment.getSegmentMetadata().getTotalDocs()); + } else { + filterOp = _filterOperator; + } + _projectOperator = new ProjectPlanNode(_segmentContext, _queryContext, + _queryContext.getSelectExpressions(), DocIdSetPlanNode.MAX_DOC_PER_CALL, filterOp).run(); + DistinctExecutor executor = DistinctExecutorFactory.getDistinctExecutor(_projectOperator, _queryContext); + ValueBlock valueBlock; + while ((valueBlock = _projectOperator.nextBlock()) != null) { + _numDocsScanned += valueBlock.getNumDocs(); + if (executor.process(valueBlock)) { + break; + } + } + return new DistinctResultsBlock(executor.getResult(), _queryContext); + } + + // ==================== Sorted Index Path ==================== + + /** + * Optimized path for sorted columns. Each dictId maps to a contiguous doc range [start, end]. + * We merge-iterate the filter bitmap with the sorted ranges in O(cardinality + filteredDocs). + */ + private DistinctResultsBlock executeSortedIndexPath(SortedIndexReader<?> sortedReader, + @Nullable ImmutableRoaringBitmap filteredDocIds) { + OrderByExpressionContext orderByExpression = + _queryContext.getOrderByExpressions() != null ? _queryContext.getOrderByExpressions().get(0) : null; + boolean useDictIdTable = canUseDictIdDistinctTable(orderByExpression); + DistinctTable distinctTable = + useDictIdTable ? createDictIdDistinctTable(orderByExpression) : createTypedDistinctTable(orderByExpression); + int dictLength = _dictionary.length(); + // Process null handling: exclude null docs from filter and determine if nulls are present + NullFilterResult nullResult = processNullDocs(filteredDocIds); + ImmutableRoaringBitmap nonNullFilteredDocIds = nullResult._nonNullFilteredDocIds; + if (nullResult._hasNull) { + distinctTable.addNull(); + } + + // When dictIds are in value order, ORDER BY + LIMIT can terminate early by iterating in the ORDER BY direction. + boolean orderedEarlyTermination = useDictIdTable && orderByExpression != null && distinctTable.hasLimit(); + boolean iterateReverse = orderedEarlyTermination && !orderByExpression.isAsc(); + + if (nonNullFilteredDocIds == null) { + // No filter, no null exclusion — every dictionary value is present + int entriesExamined = 0; + int start = iterateReverse ? dictLength - 1 : 0; + int end = iterateReverse ? -1 : dictLength; + int step = iterateReverse ? -1 : 1; + for (int dictId = start; dictId != end; dictId += step) { + QueryThreadContext.checkTerminationAndSampleUsagePeriodically(entriesExamined, EXPLAIN_NAME_SORTED_INDEX); + entriesExamined++; + if (dictId == nullResult._nullPlaceholderDictId) { + continue; + } + boolean done = addDistinctValue(distinctTable, dictId, orderByExpression, orderedEarlyTermination); + if (done) { + break; + } + } + _numEntriesExamined = entriesExamined; + } else if (!nonNullFilteredDocIds.isEmpty()) { + if (iterateReverse) { + // DESC + LIMIT: iterate dictIds backward, use rangeCardinality for presence check. + // Each dictId maps to a contiguous doc range, so rangeCardinality is O(1) per check. + int entriesExamined = 0; + for (int dictId = dictLength - 1; dictId >= 0; dictId--) { + QueryThreadContext.checkTerminationAndSampleUsagePeriodically(entriesExamined, EXPLAIN_NAME_SORTED_INDEX); + entriesExamined++; + Pairs.IntPair range = sortedReader.getDocIds(dictId); + int startDocId = range.getLeft(); + int endDocId = range.getRight(); // inclusive + if (nonNullFilteredDocIds.rangeCardinality(startDocId, endDocId + 1L) > 0) { + if (addDistinctValue(distinctTable, dictId, orderByExpression, true)) { + break; + } + } + } + _numEntriesExamined = entriesExamined; + } else { + // ASC or no ORDER BY: merge-iterate forward (O(cardinality + filteredDocs)) + PeekableIntIterator filterIter = nonNullFilteredDocIds.getIntIterator(); + int dictId; + for (dictId = 0; dictId < dictLength && filterIter.hasNext(); dictId++) { + QueryThreadContext.checkTerminationAndSampleUsagePeriodically(dictId, EXPLAIN_NAME_SORTED_INDEX); + Pairs.IntPair range = sortedReader.getDocIds(dictId); + int startDocId = range.getLeft(); + int endDocId = range.getRight(); // inclusive + + // Skip filter docs before this range + filterIter.advanceIfNeeded(startDocId); + + // Check if any non-null filter doc falls within this range + if (filterIter.hasNext() && filterIter.peekNext() <= endDocId) { + boolean done = addDistinctValue(distinctTable, dictId, orderByExpression, orderedEarlyTermination); + if (done) { + _numEntriesExamined = dictId + 1; + return new DistinctResultsBlock(convertDistinctTable(distinctTable, nullResult._hasNull), _queryContext); + } + // Advance past the current range for next dictId + filterIter.advanceIfNeeded(endDocId + 1); + } + } + _numEntriesExamined = dictId; + } + } + + return new DistinctResultsBlock(convertDistinctTable(distinctTable, nullResult._hasNull), _queryContext); + } + + // ==================== Bitmap Inverted Index Path ==================== + + private DistinctResultsBlock executeInvertedIndexPath(@Nullable ImmutableRoaringBitmap filteredDocIds) { + // Process null handling: exclude null docs from filter and determine if nulls are present + NullFilterResult nullResult = processNullDocs(filteredDocIds); + ImmutableRoaringBitmap nonNullFilteredDocIds = nullResult._nonNullFilteredDocIds; + OrderByExpressionContext orderByExpression = + _queryContext.getOrderByExpressions() != null ? _queryContext.getOrderByExpressions().get(0) : null; + boolean useDictIdTable = canUseDictIdDistinctTable(orderByExpression); + DistinctTable distinctTable = + useDictIdTable ? createDictIdDistinctTable(orderByExpression) : createTypedDistinctTable(orderByExpression); + int dictLength = _dictionary.length(); + if (nullResult._hasNull) { + distinctTable.addNull(); + } + + // When dictIds are in value order, ORDER BY + LIMIT can terminate early by iterating in the ORDER BY direction. + boolean orderedEarlyTermination = useDictIdTable && orderByExpression != null && distinctTable.hasLimit(); + boolean iterateReverse = orderedEarlyTermination && !orderByExpression.isAsc(); + + int entriesExamined = 0; + int start = iterateReverse ? dictLength - 1 : 0; + int end = iterateReverse ? -1 : dictLength; + int step = iterateReverse ? -1 : 1; + + for (int dictId = start; dictId != end; dictId += step) { + QueryThreadContext.checkTerminationAndSampleUsagePeriodically(entriesExamined, EXPLAIN_NAME); + entriesExamined++; + if (dictId == nullResult._nullPlaceholderDictId) { + continue; + } + + // SortedIndexReader is handled separately in getNextBlock(), so this path only sees bitmap inverted indexes + // whose getDocIds() returns ImmutableRoaringBitmap. + ImmutableRoaringBitmap docIds = (ImmutableRoaringBitmap) _invertedIndexReader.getDocIds(dictId); + + // Use intersects() for early termination instead of computing full intersection. + // intersects() short-circuits on the first common element, which is orders of magnitude + // faster than RoaringBitmap.and() especially for low-cardinality (dense) bitmaps. + // Use the non-null filter bitmap to skip the null placeholder value. + boolean includeValue; + if (nonNullFilteredDocIds == null) { + includeValue = true; + } else { + includeValue = ImmutableRoaringBitmap.intersects(docIds, nonNullFilteredDocIds); + } + + if (includeValue) { + boolean done = addDistinctValue(distinctTable, dictId, orderByExpression, orderedEarlyTermination); + if (done) { + break; + } + } + } + _numEntriesExamined = entriesExamined; + + return new DistinctResultsBlock(convertDistinctTable(distinctTable, nullResult._hasNull), _queryContext); + } + + @Nullable + private ImmutableRoaringBitmap buildFilteredDocIds() { + BaseFilterOperator.FilteredDocIds filteredDocIds = _filterOperator.getFilteredDocIds(); + _numEntriesScannedInFilter = filteredDocIds.getNumEntriesScannedInFilter(); + return filteredDocIds.getDocIds(); + } + + private boolean canUseDictIdDistinctTable(@Nullable OrderByExpressionContext orderByExpression) { + return orderByExpression == null || _dictionary.isSorted(); + } + + private DataSchema createDataSchema() { + ExpressionContext expr = _queryContext.getSelectExpressions().get(0); + String column = expr.getIdentifier(); + DataSourceMetadata dataSourceMetadata = _dataSource.getDataSourceMetadata(); + return new DataSchema(new String[]{column}, + new ColumnDataType[]{ColumnDataType.fromDataTypeSV(dataSourceMetadata.getDataType())}); + } + + private DictIdDistinctTable createDictIdDistinctTable(@Nullable OrderByExpressionContext orderByExpression) { + return new DictIdDistinctTable(createDataSchema(), _queryContext.getLimit(), _queryContext.isNullHandlingEnabled(), + orderByExpression); + } + + private DistinctTable createTypedDistinctTable(@Nullable OrderByExpressionContext orderByExpression) { + DataSchema dataSchema = createDataSchema(); + int limit = _queryContext.getLimit(); + boolean nullHandlingEnabled = _queryContext.isNullHandlingEnabled(); + switch (_dictionary.getValueType()) { + case INT: + return new IntDistinctTable(dataSchema, limit, nullHandlingEnabled, orderByExpression); + case LONG: + return new LongDistinctTable(dataSchema, limit, nullHandlingEnabled, orderByExpression); + case FLOAT: + return new FloatDistinctTable(dataSchema, limit, nullHandlingEnabled, orderByExpression); + case DOUBLE: + return new DoubleDistinctTable(dataSchema, limit, nullHandlingEnabled, orderByExpression); + case BIG_DECIMAL: + return new BigDecimalDistinctTable(dataSchema, limit, nullHandlingEnabled, orderByExpression); + case STRING: + return new StringDistinctTable(dataSchema, limit, nullHandlingEnabled, orderByExpression); + case BYTES: + return new BytesDistinctTable(dataSchema, limit, nullHandlingEnabled, orderByExpression); + default: + throw new IllegalStateException("Unsupported data type: " + _dictionary.getValueType()); + } + } + + private DistinctTable convertDistinctTable(DistinctTable distinctTable, boolean hasNull) { + if (distinctTable instanceof DictIdDistinctTable) { + return ((DictIdDistinctTable) distinctTable).toTypedDistinctTable(_dictionary, hasNull); + } + return distinctTable; + } + + private boolean addDistinctValue(DistinctTable distinctTable, int dictId, + @Nullable OrderByExpressionContext orderByExpression, boolean orderedEarlyTermination) { + if (distinctTable instanceof DictIdDistinctTable) { + DictIdDistinctTable dictIdDistinctTable = (DictIdDistinctTable) distinctTable; + if (orderedEarlyTermination) { + return dictIdDistinctTable.addForOrderedEarlyTermination(dictId); + } + if (dictIdDistinctTable.hasLimit()) { + if (orderByExpression != null) { + dictIdDistinctTable.addWithOrderBy(dictId); + return false; + } + return dictIdDistinctTable.addWithoutOrderBy(dictId); + } + dictIdDistinctTable.addUnbounded(dictId); + return false; + } + + switch (_dictionary.getValueType()) { + case INT: { + IntDistinctTable table = (IntDistinctTable) distinctTable; + int value = _dictionary.getIntValue(dictId); + if (table.hasLimit()) { + if (orderByExpression != null) { + table.addWithOrderBy(value); + return false; + } + return table.addWithoutOrderBy(value); + } + table.addUnbounded(value); + return false; + } + case LONG: { + LongDistinctTable table = (LongDistinctTable) distinctTable; + long value = _dictionary.getLongValue(dictId); + if (table.hasLimit()) { + if (orderByExpression != null) { + table.addWithOrderBy(value); + return false; + } + return table.addWithoutOrderBy(value); + } + table.addUnbounded(value); + return false; + } + case FLOAT: { + FloatDistinctTable table = (FloatDistinctTable) distinctTable; + float value = _dictionary.getFloatValue(dictId); + if (table.hasLimit()) { + if (orderByExpression != null) { + table.addWithOrderBy(value); + return false; + } + return table.addWithoutOrderBy(value); + } + table.addUnbounded(value); + return false; + } + case DOUBLE: { + DoubleDistinctTable table = (DoubleDistinctTable) distinctTable; + double value = _dictionary.getDoubleValue(dictId); + if (table.hasLimit()) { + if (orderByExpression != null) { + table.addWithOrderBy(value); + return false; + } + return table.addWithoutOrderBy(value); + } + table.addUnbounded(value); + return false; + } + case BIG_DECIMAL: { + BigDecimalDistinctTable table = (BigDecimalDistinctTable) distinctTable; + java.math.BigDecimal value = _dictionary.getBigDecimalValue(dictId); + if (table.hasLimit()) { + if (orderByExpression != null) { + table.addWithOrderBy(value); + return false; + } + return table.addWithoutOrderBy(value); + } + table.addUnbounded(value); + return false; + } + case STRING: { + StringDistinctTable table = (StringDistinctTable) distinctTable; + String value = _dictionary.getStringValue(dictId); + if (table.hasLimit()) { + if (orderByExpression != null) { + table.addWithOrderBy(value); + return false; + } + return table.addWithoutOrderBy(value); + } + table.addUnbounded(value); + return false; + } + case BYTES: { + BytesDistinctTable table = (BytesDistinctTable) distinctTable; + ByteArray value = new ByteArray(_dictionary.getBytesValue(dictId)); + if (table.hasLimit()) { + if (orderByExpression != null) { + table.addWithOrderBy(value); + return false; + } + return table.addWithoutOrderBy(value); + } + table.addUnbounded(value); + return false; + } + default: + throw new IllegalStateException("Unsupported data type: " + _dictionary.getValueType()); + } + } + + // ==================== Null Handling ==================== + + /** + * Processes null handling for the filter bitmap. Returns the filter bitmap with null docs excluded + * and whether any filtered docs have null values. + * + * <p>Nulls are not in the dictionary, so they must be checked separately via the null value vector. + * The null placeholder value (e.g., Integer.MIN_VALUE) is excluded from dictionary iteration by + * removing null docs from the filter bitmap. + */ + private NullFilterResult processNullDocs(@Nullable ImmutableRoaringBitmap filteredDocIds) { + if (!_queryContext.isNullHandlingEnabled()) { + return new NullFilterResult(filteredDocIds, false, Dictionary.NULL_VALUE_INDEX); + } + NullValueVectorReader nullReader = _dataSource.getNullValueVector(); + if (nullReader == null) { + return new NullFilterResult(filteredDocIds, false, Dictionary.NULL_VALUE_INDEX); + } + ImmutableRoaringBitmap nullBitmap = nullReader.getNullBitmap(); + if (nullBitmap == null || nullBitmap.isEmpty()) { + return new NullFilterResult(filteredDocIds, false, Dictionary.NULL_VALUE_INDEX); + } + // Determine if any filtered doc has null + boolean hasNull = filteredDocIds == null || ImmutableRoaringBitmap.intersects(nullBitmap, filteredDocIds); + // Exclude null docs from filter bitmap + ImmutableRoaringBitmap nonNullFilteredDocIds; + int nullPlaceholderDictId = Dictionary.NULL_VALUE_INDEX; + if (filteredDocIds == null) { + // Preserve match-all to avoid materializing a dense complement bitmap. Instead skip the null placeholder dictId + // while iterating dictionary values. + nonNullFilteredDocIds = null; + nullPlaceholderDictId = getNullPlaceholderDictId(); + } else { + nonNullFilteredDocIds = ImmutableRoaringBitmap.andNot(filteredDocIds, nullBitmap); + } + return new NullFilterResult(nonNullFilteredDocIds, hasNull, nullPlaceholderDictId); + } + + private int getNullPlaceholderDictId() { + Object defaultNullValue = _dataSource.getDataSourceMetadata().getFieldSpec().getDefaultNullValue(); + switch (_dictionary.getValueType()) { + case INT: + return _dictionary.indexOf((int) defaultNullValue); + case LONG: + return _dictionary.indexOf((long) defaultNullValue); + case FLOAT: + return _dictionary.indexOf((float) defaultNullValue); + case DOUBLE: + return _dictionary.indexOf((double) defaultNullValue); + case BIG_DECIMAL: + return _dictionary.indexOf((BigDecimal) defaultNullValue); + case STRING: + return _dictionary.indexOf((String) defaultNullValue); + case BYTES: + return _dictionary.indexOf(new ByteArray((byte[]) defaultNullValue)); Review Comment: cast primitives is for perf purposes -- This is an automated message from the Apache Git Service. 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