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/*
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package org.apache.cassandra.db.rows;

import java.util.Comparator;
import java.util.Iterator;

import org.apache.cassandra.config.CFMetaData;
import org.apache.cassandra.db.*;
import org.apache.cassandra.db.filter.ColumnFilter;

/**
 * An iterator that merges a source of rows with the range tombstone and partition level deletion of a give partition.
 * 

* This is used by our {@code Partition} implementations to produce a {@code UnfilteredRowIterator} by merging the rows * and deletion infos that are kept separate. This has also 2 additional role: * 1) this make sure the row returned only includes the columns selected for the resulting iterator. * 2) this (optionally) remove any data that can be shadowed (see commet on 'removeShadowedData' below for more details) */ public class RowAndDeletionMergeIterator extends AbstractUnfilteredRowIterator { // For some of our Partition implementation, we can't guarantee that the deletion information (partition level // deletion and range tombstones) don't shadow data in the rows. If that is the case, this class also take // cares of skipping such shadowed data (since it is the contract of an UnfilteredRowIterator that it doesn't // shadow its own data). Sometimes however, we know this can't happen, in which case we can skip that step. private final boolean removeShadowedData; private final Comparator comparator; private final ColumnFilter selection; private final Iterator rows; private Row nextRow; private final Iterator ranges; private RangeTombstone nextRange; // The currently open tombstone. Note that unless this is null, there is no point in checking nextRange. private RangeTombstone openRange; public RowAndDeletionMergeIterator(CFMetaData metadata, DecoratedKey partitionKey, DeletionTime partitionLevelDeletion, ColumnFilter selection, Row staticRow, boolean isReversed, EncodingStats stats, Iterator rows, Iterator ranges, boolean removeShadowedData) { super(metadata, partitionKey, partitionLevelDeletion, selection.fetchedColumns(), staticRow, isReversed, stats); this.comparator = isReversed ? metadata.comparator.reversed() : metadata.comparator; this.selection = selection; this.removeShadowedData = removeShadowedData; this.rows = rows; this.ranges = ranges; } protected Unfiltered computeNext() { while (true) { updateNextRow(); if (nextRow == null) { if (openRange != null) return closeOpenedRange(); updateNextRange(); return nextRange == null ? endOfData() : openRange(); } // We have a next row if (openRange == null) { // We have no currently open tombstone range. So check if we have a next range and if it sorts before this row. // If it does, the opening of that range should go first. Otherwise, the row goes first. updateNextRange(); if (nextRange != null && comparator.compare(openBound(nextRange), nextRow.clustering()) < 0) return openRange(); Row row = consumeNextRow(); // it's possible for the row to be fully shadowed by the current range tombstone if (row != null) return row; } else { // We have both a next row and a currently opened tombstone. Check which goes first between the range closing and the row. if (comparator.compare(closeBound(openRange), nextRow.clustering()) < 0) return closeOpenedRange(); Row row = consumeNextRow(); if (row != null) return row; } } } private void updateNextRow() { if (nextRow == null && rows.hasNext()) nextRow = rows.next(); } private void updateNextRange() { while (nextRange == null && ranges.hasNext()) { nextRange = ranges.next(); if (removeShadowedData && partitionLevelDeletion().supersedes(nextRange.deletionTime())) nextRange = null; } } private Row consumeNextRow() { Row row = nextRow; nextRow = null; if (!removeShadowedData) return row.filter(selection, metadata()); DeletionTime activeDeletion = openRange == null ? partitionLevelDeletion() : openRange.deletionTime(); return row.filter(selection, activeDeletion, false, metadata()); } private RangeTombstone consumeNextRange() { RangeTombstone range = nextRange; nextRange = null; return range; } private RangeTombstone consumeOpenRange() { RangeTombstone range = openRange; openRange = null; return range; } private ClusteringBound openBound(RangeTombstone range) { return range.deletedSlice().open(isReverseOrder()); } private ClusteringBound closeBound(RangeTombstone range) { return range.deletedSlice().close(isReverseOrder()); } private RangeTombstoneMarker closeOpenedRange() { // Check if that close if actually a boundary between markers updateNextRange(); RangeTombstoneMarker marker; if (nextRange != null && comparator.compare(closeBound(openRange), openBound(nextRange)) == 0) { marker = RangeTombstoneBoundaryMarker.makeBoundary(isReverseOrder(), closeBound(openRange), openBound(nextRange), openRange.deletionTime(), nextRange.deletionTime()); openRange = consumeNextRange(); } else { RangeTombstone toClose = consumeOpenRange(); marker = new RangeTombstoneBoundMarker(closeBound(toClose), toClose.deletionTime()); } return marker; } private RangeTombstoneMarker openRange() { assert openRange == null && nextRange != null; openRange = consumeNextRange(); return new RangeTombstoneBoundMarker(openBound(openRange), openRange.deletionTime()); } }





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