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/*
* 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.solr.client.solrj.io.stream;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Comparator;
import java.util.LinkedList;
import java.util.List;
import org.apache.solr.client.solrj.io.Tuple;
import org.apache.solr.client.solrj.io.comp.ComparatorOrder;
import org.apache.solr.client.solrj.io.comp.FieldComparator;
import org.apache.solr.client.solrj.io.comp.MultipleFieldComparator;
import org.apache.solr.client.solrj.io.comp.StreamComparator;
import org.apache.solr.client.solrj.io.eq.Equalitor;
import org.apache.solr.client.solrj.io.eq.FieldEqualitor;
import org.apache.solr.client.solrj.io.eq.MultipleFieldEqualitor;
import org.apache.solr.client.solrj.io.eq.StreamEqualitor;
import org.apache.solr.client.solrj.io.stream.expr.Expressible;
import org.apache.solr.client.solrj.io.stream.expr.StreamExpression;
import org.apache.solr.client.solrj.io.stream.expr.StreamFactory;
/**
* Joins leftStream with rightStream based on a Equalitor. Both streams must be sorted by the fields being joined on.
* Resulting stream is sorted by the equalitor.
**/
public abstract class BiJoinStream extends JoinStream implements Expressible {
protected PushBackStream leftStream;
protected PushBackStream rightStream;
// This is used to determine whether we should iterate the left or right side (depending on stream order).
// It is built from the incoming equalitor and streams' comparators.
protected StreamComparator iterationComparator;
protected StreamComparator leftStreamComparator, rightStreamComparator;
public BiJoinStream(TupleStream leftStream, TupleStream rightStream, StreamEqualitor eq) throws IOException {
super(eq, leftStream, rightStream);
init();
}
public BiJoinStream(StreamExpression expression, StreamFactory factory) throws IOException {
super(expression, factory);
init();
}
private void init() throws IOException {
// Validates all incoming streams for tuple order
validateTupleOrder();
leftStream = getStream(0);
rightStream = getStream(1);
// iterationComparator is a combination of the equalitor and the comp from each stream. This can easily be done by
// grabbing the first N parts of each comp where N is the number of parts in the equalitor. Because we've already
// validated tuple order (the comps) then we know this can be done.
iterationComparator = createIterationComparator(eq, leftStream.getStreamSort());
leftStreamComparator = createSideComparator(eq, leftStream.getStreamSort());
rightStreamComparator = createSideComparator(eq, rightStream.getStreamSort());
}
protected void validateTupleOrder() throws IOException {
if (!isValidTupleOrder()) {
throw new IOException(
"Invalid JoinStream - all incoming stream comparators (sort) must be a superset of this stream's equalitor.");
}
}
private StreamComparator createIterationComparator(StreamEqualitor eq, StreamComparator comp) throws IOException {
if (eq instanceof MultipleFieldEqualitor && comp instanceof MultipleFieldComparator) {
// we know the comp is at least as long as the eq because we've already validated the tuple order
StreamComparator[] compoundComps = new StreamComparator[((MultipleFieldEqualitor) eq).getEqs().length];
for (int idx = 0; idx < compoundComps.length; ++idx) {
StreamEqualitor sourceEqualitor = ((MultipleFieldEqualitor) eq).getEqs()[idx];
StreamComparator sourceComparator = ((MultipleFieldComparator) comp).getComps()[idx];
if (sourceEqualitor instanceof FieldEqualitor && sourceComparator instanceof FieldComparator) {
FieldEqualitor fieldEqualitor = (FieldEqualitor) sourceEqualitor;
FieldComparator fieldComparator = (FieldComparator) sourceComparator;
compoundComps[idx] = new FieldComparator(fieldEqualitor.getLeftFieldName(),
fieldEqualitor.getRightFieldName(), fieldComparator.getOrder());
} else {
throw new IOException("Failed to create an iteration comparator");
}
}
return new MultipleFieldComparator(compoundComps);
} else if (comp instanceof MultipleFieldComparator) {
StreamEqualitor sourceEqualitor = eq;
StreamComparator sourceComparator = ((MultipleFieldComparator) comp).getComps()[0];
if (sourceEqualitor instanceof FieldEqualitor && sourceComparator instanceof FieldComparator) {
FieldEqualitor fieldEqualitor = (FieldEqualitor) sourceEqualitor;
FieldComparator fieldComparator = (FieldComparator) sourceComparator;
return new FieldComparator(fieldEqualitor.getLeftFieldName(), fieldEqualitor.getRightFieldName(),
fieldComparator.getOrder());
} else {
throw new IOException("Failed to create an iteration comparator");
}
} else {
StreamEqualitor sourceEqualitor = eq;
StreamComparator sourceComparator = comp;
if (sourceEqualitor instanceof FieldEqualitor && sourceComparator instanceof FieldComparator) {
FieldEqualitor fieldEqualitor = (FieldEqualitor) sourceEqualitor;
FieldComparator fieldComparator = (FieldComparator) sourceComparator;
return new FieldComparator(fieldEqualitor.getLeftFieldName(), fieldEqualitor.getRightFieldName(),
fieldComparator.getOrder());
} else {
throw new IOException("Failed to create an iteration comparator");
}
}
}
private StreamComparator createSideComparator(StreamEqualitor eq, StreamComparator comp) throws IOException {
if (eq instanceof MultipleFieldEqualitor && comp instanceof MultipleFieldComparator) {
// we know the comp is at least as long as the eq because we've already validated the tuple order
StreamComparator[] compoundComps = new StreamComparator[((MultipleFieldEqualitor) eq).getEqs().length];
for (int idx = 0; idx < compoundComps.length; ++idx) {
StreamComparator sourceComparator = ((MultipleFieldComparator) comp).getComps()[idx];
if (sourceComparator instanceof FieldComparator) {
FieldComparator fieldComparator = (FieldComparator) sourceComparator;
compoundComps[idx] = new FieldComparator(fieldComparator.getLeftFieldName(),
fieldComparator.getRightFieldName(), fieldComparator.getOrder());
} else {
throw new IOException("Failed to create an side comparator");
}
}
return new MultipleFieldComparator(compoundComps);
} else if (comp instanceof MultipleFieldComparator) {
StreamComparator sourceComparator = ((MultipleFieldComparator) comp).getComps()[0];
if (sourceComparator instanceof FieldComparator) {
FieldComparator fieldComparator = (FieldComparator) sourceComparator;
return new FieldComparator(fieldComparator.getLeftFieldName(), fieldComparator.getRightFieldName(),
fieldComparator.getOrder());
} else {
throw new IOException("Failed to create an side comparator");
}
} else {
StreamComparator sourceComparator = comp;
if (sourceComparator instanceof FieldComparator) {
FieldComparator fieldComparator = (FieldComparator) sourceComparator;
return new FieldComparator(fieldComparator.getLeftFieldName(), fieldComparator.getRightFieldName(),
fieldComparator.getOrder());
} else {
throw new IOException("Failed to create an side comparator");
}
}
}
}
