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TemporalIndexReader.java
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TemporalIndexReader.java
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/*
* Copyright (c) 2002-2018 "Neo4j,"
* Neo4j Sweden AB [http://neo4j.com]
*
* This file is part of Neo4j.
*
* Neo4j is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package org.neo4j.kernel.impl.index.schema;
import java.util.ArrayList;
import java.util.List;
import org.neo4j.collection.PrimitiveLongResourceIterator;
import org.neo4j.graphdb.Resource;
import org.neo4j.internal.kernel.api.IndexOrder;
import org.neo4j.internal.kernel.api.IndexQuery;
import org.neo4j.internal.kernel.api.IndexQuery.ExistsPredicate;
import org.neo4j.kernel.api.schema.index.IndexDescriptor;
import org.neo4j.kernel.impl.api.schema.BridgingIndexProgressor;
import org.neo4j.kernel.impl.index.schema.fusion.FusionIndexSampler;
import org.neo4j.storageengine.api.schema.IndexProgressor;
import org.neo4j.storageengine.api.schema.IndexReader;
import org.neo4j.storageengine.api.schema.IndexSampler;
import org.neo4j.values.storable.Value;
import org.neo4j.values.storable.ValueGroup;
import static org.neo4j.kernel.impl.index.schema.fusion.FusionIndexBase.forAll;
class TemporalIndexReader extends TemporalIndexCache<TemporalIndexPartReader<?>> implements IndexReader
{
private final IndexDescriptor descriptor;
TemporalIndexReader( IndexDescriptor descriptor, TemporalIndexAccessor accessor )
{
super( new PartFactory( accessor ) );
this.descriptor = descriptor;
}
@Override
public void close()
{
forAll( Resource::close, this );
}
@Override
public long countIndexedNodes( long nodeId, Value... propertyValues )
{
NativeIndexReader<?,NativeIndexValue> partReader = uncheckedSelect( propertyValues[0].valueGroup() );
return partReader == null ? 0L : partReader.countIndexedNodes( nodeId, propertyValues );
}
@Override
public IndexSampler createSampler()
{
List<IndexSampler> samplers = new ArrayList<>();
for ( TemporalIndexPartReader<?> partReader : this )
{
samplers.add( partReader.createSampler() );
}
return new FusionIndexSampler( samplers );
}
@Override
public PrimitiveLongResourceIterator query( IndexQuery... predicates )
{
NodeValueIterator nodeValueIterator = new NodeValueIterator();
query( nodeValueIterator, IndexOrder.NONE, predicates );
return nodeValueIterator;
}
@Override
public void query( IndexProgressor.NodeValueClient cursor, IndexOrder indexOrder, IndexQuery... predicates )
{
if ( predicates.length != 1 )
{
throw new IllegalArgumentException( "Only single property temporal indexes are supported." );
}
IndexQuery predicate = predicates[0];
if ( predicate instanceof ExistsPredicate )
{
loadAll();
BridgingIndexProgressor multiProgressor = new BridgingIndexProgressor( cursor, descriptor.schema().getPropertyIds() );
cursor.initialize( descriptor, multiProgressor, predicates );
for ( NativeIndexReader<?,NativeIndexValue> reader : this )
{
reader.query( multiProgressor, indexOrder, predicates );
}
}
else
{
if ( validPredicate( predicate ) )
{
NativeIndexReader<?,NativeIndexValue> part = uncheckedSelect( predicate.valueGroup() );
if ( part != null )
{
part.query( cursor, indexOrder, predicates );
}
else
{
cursor.initialize( descriptor, IndexProgressor.EMPTY, predicates );
}
}
else
{
cursor.initialize( descriptor, IndexProgressor.EMPTY, predicates );
}
}
}
@Override
public boolean hasFullValuePrecision( IndexQuery... predicates )
{
return true;
}
private boolean validPredicate( IndexQuery predicate )
{
return predicate instanceof IndexQuery.ExactPredicate || predicate instanceof IndexQuery.RangePredicate;
}
/**
* To create TemporalIndexPartReaders on demand, the PartFactory maintains a reference to the parent TemporalIndexAccessor.
* The creation of a part reader can then be delegated to the correct PartAccessor.
*/
static class PartFactory implements TemporalIndexCache.Factory<TemporalIndexPartReader<?>>
{
private final TemporalIndexAccessor accessor;
PartFactory( TemporalIndexAccessor accessor )
{
this.accessor = accessor;
}
@Override
public TemporalIndexPartReader<?> newDate()
{
return accessor.selectOrElse( ValueGroup.DATE, TemporalIndexAccessor.PartAccessor::newReader, null );
}
@Override
public TemporalIndexPartReader<?> newLocalDateTime()
{
return accessor.selectOrElse( ValueGroup.LOCAL_DATE_TIME, TemporalIndexAccessor.PartAccessor::newReader, null );
}
@Override
public TemporalIndexPartReader<?> newZonedDateTime()
{
return accessor.selectOrElse( ValueGroup.ZONED_DATE_TIME, TemporalIndexAccessor.PartAccessor::newReader, null );
}
@Override
public TemporalIndexPartReader<?> newLocalTime()
{
return accessor.selectOrElse( ValueGroup.LOCAL_TIME, TemporalIndexAccessor.PartAccessor::newReader, null );
}
@Override
public TemporalIndexPartReader<?> newZonedTime()
{
return accessor.selectOrElse( ValueGroup.ZONED_TIME, TemporalIndexAccessor.PartAccessor::newReader, null );
}
@Override
public TemporalIndexPartReader<?> newDuration()
{
return accessor.selectOrElse( ValueGroup.DURATION, TemporalIndexAccessor.PartAccessor::newReader, null );
}
}
}