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A fork of the Apache Cassandra Project ready to embed Elasticsearch.
/*
* 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.cassandra.cql3;
import java.util.ArrayList;
import java.util.List;
import java.util.stream.Collectors;
import org.apache.cassandra.config.CFMetaData;
import org.apache.cassandra.config.ColumnDefinition;
import org.apache.cassandra.cql3.Term.MultiColumnRaw;
import org.apache.cassandra.cql3.Term.Raw;
import org.apache.cassandra.cql3.restrictions.MultiColumnRestriction;
import org.apache.cassandra.cql3.restrictions.Restriction;
import org.apache.cassandra.cql3.restrictions.SingleColumnRestriction;
import org.apache.cassandra.cql3.statements.Bound;
import org.apache.cassandra.exceptions.InvalidRequestException;
import static org.apache.cassandra.cql3.statements.RequestValidations.checkFalse;
import static org.apache.cassandra.cql3.statements.RequestValidations.checkTrue;
import static org.apache.cassandra.cql3.statements.RequestValidations.invalidRequest;
/**
* A relation using the tuple notation, which typically affects multiple columns.
* Examples:
* {@code
* - SELECT ... WHERE (a, b, c) > (1, 'a', 10)
* - SELECT ... WHERE (a, b, c) IN ((1, 2, 3), (4, 5, 6))
* - SELECT ... WHERE (a, b) < ?
* - SELECT ... WHERE (a, b) IN ?
* }
*/
public class MultiColumnRelation extends Relation
{
private final List entities;
/** A Tuples.Literal or Tuples.Raw marker */
private final Term.MultiColumnRaw valuesOrMarker;
/** A list of Tuples.Literal or Tuples.Raw markers */
private final List extends Term.MultiColumnRaw> inValues;
private final Tuples.INRaw inMarker;
private MultiColumnRelation(List entities, Operator relationType, Term.MultiColumnRaw valuesOrMarker, List extends Term.MultiColumnRaw> inValues, Tuples.INRaw inMarker)
{
this.entities = entities;
this.relationType = relationType;
this.valuesOrMarker = valuesOrMarker;
this.inValues = inValues;
this.inMarker = inMarker;
}
/**
* Creates a multi-column EQ, LT, LTE, GT, or GTE relation.
* {@code
* For example: "SELECT ... WHERE (a, b) > (0, 1)"
* }
* @param entities the columns on the LHS of the relation
* @param relationType the relation operator
* @param valuesOrMarker a Tuples.Literal instance or a Tuples.Raw marker
* @return a new MultiColumnRelation
instance
*/
public static MultiColumnRelation createNonInRelation(List entities, Operator relationType, Term.MultiColumnRaw valuesOrMarker)
{
assert relationType != Operator.IN;
return new MultiColumnRelation(entities, relationType, valuesOrMarker, null, null);
}
/**
* Creates a multi-column IN relation with a list of IN values or markers.
* For example: "SELECT ... WHERE (a, b) IN ((0, 1), (2, 3))"
* @param entities the columns on the LHS of the relation
* @param inValues a list of Tuples.Literal instances or a Tuples.Raw markers
* @return a new MultiColumnRelation
instance
*/
public static MultiColumnRelation createInRelation(List entities, List extends Term.MultiColumnRaw> inValues)
{
return new MultiColumnRelation(entities, Operator.IN, null, inValues, null);
}
/**
* Creates a multi-column IN relation with a marker for the IN values.
* For example: "SELECT ... WHERE (a, b) IN ?"
* @param entities the columns on the LHS of the relation
* @param inMarker a single IN marker
* @return a new MultiColumnRelation
instance
*/
public static MultiColumnRelation createSingleMarkerInRelation(List entities, Tuples.INRaw inMarker)
{
return new MultiColumnRelation(entities, Operator.IN, null, null, inMarker);
}
public List getEntities()
{
return entities;
}
/**
* For non-IN relations, returns the Tuples.Literal or Tuples.Raw marker for a single tuple.
* @return a Tuples.Literal for non-IN relations or Tuples.Raw marker for a single tuple.
*/
public Term.MultiColumnRaw getValue()
{
return relationType == Operator.IN ? inMarker : valuesOrMarker;
}
public List extends Term.Raw> getInValues()
{
assert relationType == Operator.IN;
return inValues;
}
@Override
public boolean isMultiColumn()
{
return true;
}
@Override
protected Restriction newEQRestriction(CFMetaData cfm,
VariableSpecifications boundNames) throws InvalidRequestException
{
List receivers = receivers(cfm);
Term term = toTerm(receivers, getValue(), cfm.ksName, boundNames);
return new MultiColumnRestriction.EQRestriction(receivers, term);
}
@Override
protected Restriction newINRestriction(CFMetaData cfm,
VariableSpecifications boundNames) throws InvalidRequestException
{
List receivers = receivers(cfm);
List terms = toTerms(receivers, inValues, cfm.ksName, boundNames);
if (terms == null)
{
Term term = toTerm(receivers, getValue(), cfm.ksName, boundNames);
return new MultiColumnRestriction.InRestrictionWithMarker(receivers, (AbstractMarker) term);
}
if (terms.size() == 1)
return new MultiColumnRestriction.EQRestriction(receivers, terms.get(0));
return new MultiColumnRestriction.InRestrictionWithValues(receivers, terms);
}
@Override
protected Restriction newSliceRestriction(CFMetaData cfm,
VariableSpecifications boundNames,
Bound bound,
boolean inclusive) throws InvalidRequestException
{
List receivers = receivers(cfm);
Term term = toTerm(receivers, getValue(), cfm.ksName, boundNames);
return new MultiColumnRestriction.SliceRestriction(receivers, bound, inclusive, term);
}
@Override
protected Restriction newContainsRestriction(CFMetaData cfm,
VariableSpecifications boundNames,
boolean isKey) throws InvalidRequestException
{
throw invalidRequest("%s cannot be used for multi-column relations", operator());
}
@Override
protected Restriction newIsNotRestriction(CFMetaData cfm,
VariableSpecifications boundNames) throws InvalidRequestException
{
// this is currently disallowed by the grammar
throw new AssertionError(String.format("%s cannot be used for multi-column relations", operator()));
}
@Override
protected Restriction newLikeRestriction(CFMetaData cfm, VariableSpecifications boundNames, Operator operator) throws InvalidRequestException
{
throw invalidRequest("%s cannot be used for multi-column relations", operator());
}
@Override
protected Term toTerm(List extends ColumnSpecification> receivers,
Raw raw,
String keyspace,
VariableSpecifications boundNames) throws InvalidRequestException
{
Term term = ((MultiColumnRaw) raw).prepare(keyspace, receivers);
term.collectMarkerSpecification(boundNames);
return term;
}
protected List receivers(CFMetaData cfm) throws InvalidRequestException
{
List names = new ArrayList<>(getEntities().size());
int previousPosition = -1;
for (ColumnDefinition.Raw raw : getEntities())
{
ColumnDefinition def = raw.prepare(cfm);
checkTrue(def.isClusteringColumn(), "Multi-column relations can only be applied to clustering columns but was applied to: %s", def.name);
checkFalse(names.contains(def), "Column \"%s\" appeared twice in a relation: %s", def.name, this);
// check that no clustering columns were skipped
checkFalse(previousPosition != -1 && def.position() != previousPosition + 1,
"Clustering columns must appear in the PRIMARY KEY order in multi-column relations: %s", this);
names.add(def);
previousPosition = def.position();
}
return names;
}
public Relation renameIdentifier(ColumnDefinition.Raw from, ColumnDefinition.Raw to)
{
if (!entities.contains(from))
return this;
List newEntities = entities.stream().map(e -> e.equals(from) ? to : e).collect(Collectors.toList());
return new MultiColumnRelation(newEntities, operator(), valuesOrMarker, inValues, inMarker);
}
@Override
public String toString()
{
StringBuilder builder = new StringBuilder(Tuples.tupleToString(entities));
if (isIN())
{
return builder.append(" IN ")
.append(inMarker != null ? '?' : Tuples.tupleToString(inValues))
.toString();
}
return builder.append(" ")
.append(relationType)
.append(" ")
.append(valuesOrMarker)
.toString();
}
@Override
public Relation toSuperColumnAdapter()
{
return new SuperColumnMultiColumnRelation(entities, relationType, valuesOrMarker, inValues, inMarker);
}
/**
* Required for SuperColumn compatibility, in order to map the SuperColumn key restrictions from the regular
* column to the collection key one.
*/
private class SuperColumnMultiColumnRelation extends MultiColumnRelation
{
private SuperColumnMultiColumnRelation(List entities, Operator relationType, MultiColumnRaw valuesOrMarker, List extends MultiColumnRaw> inValues, Tuples.INRaw inMarker)
{
super(entities, relationType, valuesOrMarker, inValues, inMarker);
}
@Override
protected Restriction newSliceRestriction(CFMetaData cfm,
VariableSpecifications boundNames,
Bound bound,
boolean inclusive) throws InvalidRequestException
{
assert cfm.isSuper() && cfm.isDense();
List receivers = receivers(cfm);
Term term = toTerm(receivers, getValue(), cfm.ksName, boundNames);
return new SingleColumnRestriction.SuperColumnMultiSliceRestriction(receivers.get(0), bound, inclusive, term);
}
@Override
protected Restriction newEQRestriction(CFMetaData cfm,
VariableSpecifications boundNames) throws InvalidRequestException
{
assert cfm.isSuper() && cfm.isDense();
List receivers = receivers(cfm);
Term term = toTerm(receivers, getValue(), cfm.ksName, boundNames);
return new SingleColumnRestriction.SuperColumnMultiEQRestriction(receivers.get(0), term);
}
@Override
protected List receivers(CFMetaData cfm) throws InvalidRequestException
{
assert cfm.isSuper() && cfm.isDense();
List names = new ArrayList<>(getEntities().size());
for (ColumnDefinition.Raw raw : getEntities())
{
ColumnDefinition def = raw.prepare(cfm);
checkTrue(def.isClusteringColumn() ||
cfm.isSuperColumnKeyColumn(def),
"Multi-column relations can only be applied to clustering columns but was applied to: %s", def.name);
checkFalse(names.contains(def), "Column \"%s\" appeared twice in a relation: %s", def.name, this);
names.add(def);
}
return names;
}
}
}
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