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The Apache Cassandra Project develops a highly scalable second-generation distributed database, bringing together Dynamo's fully distributed design and Bigtable's ColumnFamily-based data model.
/*
* 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 static org.apache.cassandra.cql3.Constants.UNSET_VALUE;
import java.nio.ByteBuffer;
import java.util.*;
import java.util.stream.Collectors;
import java.util.stream.StreamSupport;
import org.apache.cassandra.schema.ColumnMetadata;
import org.apache.cassandra.cql3.functions.Function;
import org.apache.cassandra.db.DecoratedKey;
import org.apache.cassandra.db.rows.*;
import org.apache.cassandra.db.marshal.*;
import org.apache.cassandra.exceptions.InvalidRequestException;
import org.apache.cassandra.serializers.CollectionSerializer;
import org.apache.cassandra.serializers.MarshalException;
import org.apache.cassandra.transport.ProtocolVersion;
import org.apache.cassandra.utils.ByteBufferUtil;
/**
* Static helper methods and classes for sets.
*/
public abstract class Sets
{
private Sets() {}
public static ColumnSpecification valueSpecOf(ColumnSpecification column)
{
return new ColumnSpecification(column.ksName, column.cfName, new ColumnIdentifier("value(" + column.name + ")", true), elementsType(column.type));
}
private static AbstractType> unwrap(AbstractType> type)
{
return type.isReversed() ? unwrap(((ReversedType>) type).baseType) : type;
}
private static AbstractType> elementsType(AbstractType> type)
{
return ((SetType) unwrap(type)).getElementsType();
}
/**
* Tests that the set with the specified elements can be assigned to the specified column.
*
* @param receiver the receiving column
* @param elements the set elements
*/
public static AssignmentTestable.TestResult testSetAssignment(ColumnSpecification receiver,
List extends AssignmentTestable> elements)
{
if (!(receiver.type instanceof SetType))
{
// We've parsed empty maps as a set literal to break the ambiguity so handle that case now
if (receiver.type instanceof MapType && elements.isEmpty())
return AssignmentTestable.TestResult.WEAKLY_ASSIGNABLE;
return AssignmentTestable.TestResult.NOT_ASSIGNABLE;
}
// If there is no elements, we can't say it's an exact match (an empty set if fundamentally polymorphic).
if (elements.isEmpty())
return AssignmentTestable.TestResult.WEAKLY_ASSIGNABLE;
ColumnSpecification valueSpec = valueSpecOf(receiver);
return AssignmentTestable.TestResult.testAll(receiver.ksName, valueSpec, elements);
}
/**
* Create a String
representation of the set containing the specified elements.
*
* @param elements the set elements
* @return a String
representation of the set
*/
public static String setToString(List> elements)
{
return setToString(elements, Object::toString);
}
/**
* Create a String
representation of the set from the specified items associated to
* the set elements.
*
* @param items items associated to the set elements
* @param mapper the mapper used to map the items to the String
representation of the set elements
* @return a String
representation of the set
*/
public static String setToString(Iterable items, java.util.function.Function mapper)
{
return StreamSupport.stream(items.spliterator(), false)
.map(e -> mapper.apply(e))
.collect(Collectors.joining(", ", "{", "}"));
}
/**
* Returns the exact SetType from the items if it can be known.
*
* @param items the items mapped to the set elements
* @param mapper the mapper used to retrieve the element types from the items
* @return the exact SetType from the items if it can be known or null
*/
public static AbstractType> getExactSetTypeIfKnown(List items,
java.util.function.Function> mapper)
{
Optional> type = items.stream().map(mapper).filter(Objects::nonNull).findFirst();
return type.isPresent() ? SetType.getInstance(type.get(), false) : null;
}
public static class Literal extends Term.Raw
{
private final List elements;
public Literal(List elements)
{
this.elements = elements;
}
public Term prepare(String keyspace, ColumnSpecification receiver) throws InvalidRequestException
{
validateAssignableTo(keyspace, receiver);
// We've parsed empty maps as a set literal to break the ambiguity so
// handle that case now
if (receiver.type instanceof MapType && elements.isEmpty())
return new Maps.Value(Collections.emptySortedMap());
ColumnSpecification valueSpec = Sets.valueSpecOf(receiver);
Set values = new HashSet<>(elements.size());
boolean allTerminal = true;
for (Term.Raw rt : elements)
{
Term t = rt.prepare(keyspace, valueSpec);
if (t.containsBindMarker())
throw new InvalidRequestException(String.format("Invalid set literal for %s: bind variables are not supported inside collection literals", receiver.name));
if (t instanceof Term.NonTerminal)
allTerminal = false;
values.add(t);
}
DelayedValue value = new DelayedValue(elementsType(receiver.type), values);
return allTerminal ? value.bind(QueryOptions.DEFAULT) : value;
}
private void validateAssignableTo(String keyspace, ColumnSpecification receiver) throws InvalidRequestException
{
AbstractType> type = unwrap(receiver.type);
if (!(type instanceof SetType))
{
// We've parsed empty maps as a set literal to break the ambiguity so
// handle that case now
if ((type instanceof MapType) && elements.isEmpty())
return;
throw new InvalidRequestException(String.format("Invalid set literal for %s of type %s", receiver.name, receiver.type.asCQL3Type()));
}
ColumnSpecification valueSpec = Sets.valueSpecOf(receiver);
for (Term.Raw rt : elements)
{
if (!rt.testAssignment(keyspace, valueSpec).isAssignable())
throw new InvalidRequestException(String.format("Invalid set literal for %s: value %s is not of type %s", receiver.name, rt, valueSpec.type.asCQL3Type()));
}
}
public AssignmentTestable.TestResult testAssignment(String keyspace, ColumnSpecification receiver)
{
return testSetAssignment(receiver, elements);
}
@Override
public AbstractType> getExactTypeIfKnown(String keyspace)
{
return getExactSetTypeIfKnown(elements, p -> p.getExactTypeIfKnown(keyspace));
}
public String getText()
{
return setToString(elements, Term.Raw::getText);
}
}
public static class Value extends Term.Terminal
{
public final SortedSet elements;
public Value(SortedSet elements)
{
this.elements = elements;
}
public static Value fromSerialized(ByteBuffer value, SetType type, ProtocolVersion version) throws InvalidRequestException
{
try
{
// Collections have this small hack that validate cannot be called on a serialized object,
// but compose does the validation (so we're fine).
Set> s = type.getSerializer().deserializeForNativeProtocol(value, ByteBufferAccessor.instance, version);
SortedSet elements = new TreeSet<>(type.getElementsType());
for (Object element : s)
elements.add(type.getElementsType().decompose(element));
return new Value(elements);
}
catch (MarshalException e)
{
throw new InvalidRequestException(e.getMessage());
}
}
public ByteBuffer get(ProtocolVersion protocolVersion)
{
return CollectionSerializer.pack(elements, elements.size(), protocolVersion);
}
public boolean equals(SetType st, Value v)
{
if (elements.size() != v.elements.size())
return false;
Iterator thisIter = elements.iterator();
Iterator thatIter = v.elements.iterator();
AbstractType elementsType = st.getElementsType();
while (thisIter.hasNext())
if (elementsType.compare(thisIter.next(), thatIter.next()) != 0)
return false;
return true;
}
}
// See Lists.DelayedValue
public static class DelayedValue extends Term.NonTerminal
{
private final Comparator comparator;
private final Set elements;
public DelayedValue(Comparator comparator, Set elements)
{
this.comparator = comparator;
this.elements = elements;
}
public boolean containsBindMarker()
{
// False since we don't support them in collection
return false;
}
public void collectMarkerSpecification(VariableSpecifications boundNames)
{
}
public Terminal bind(QueryOptions options) throws InvalidRequestException
{
SortedSet buffers = new TreeSet<>(comparator);
for (Term t : elements)
{
ByteBuffer bytes = t.bindAndGet(options);
if (bytes == null)
throw new InvalidRequestException("null is not supported inside collections");
if (bytes == ByteBufferUtil.UNSET_BYTE_BUFFER)
return UNSET_VALUE;
buffers.add(bytes);
}
return new Value(buffers);
}
public void addFunctionsTo(List functions)
{
Terms.addFunctions(elements, functions);
}
}
public static class Marker extends AbstractMarker
{
protected Marker(int bindIndex, ColumnSpecification receiver)
{
super(bindIndex, receiver);
assert receiver.type instanceof SetType;
}
public Terminal bind(QueryOptions options) throws InvalidRequestException
{
ByteBuffer value = options.getValues().get(bindIndex);
if (value == null)
return null;
if (value == ByteBufferUtil.UNSET_BYTE_BUFFER)
return UNSET_VALUE;
return Value.fromSerialized(value, (SetType)receiver.type, options.getProtocolVersion());
}
}
public static class Setter extends Operation
{
public Setter(ColumnMetadata column, Term t)
{
super(column, t);
}
public void execute(DecoratedKey partitionKey, UpdateParameters params) throws InvalidRequestException
{
Term.Terminal value = t.bind(params.options);
if (value == UNSET_VALUE)
return;
// delete + add
if (column.type.isMultiCell())
params.setComplexDeletionTimeForOverwrite(column);
Adder.doAdd(value, column, params);
}
}
public static class Adder extends Operation
{
public Adder(ColumnMetadata column, Term t)
{
super(column, t);
}
public void execute(DecoratedKey partitionKey, UpdateParameters params) throws InvalidRequestException
{
assert column.type.isMultiCell() : "Attempted to add items to a frozen set";
Term.Terminal value = t.bind(params.options);
if (value != UNSET_VALUE)
doAdd(value, column, params);
}
static void doAdd(Term.Terminal value, ColumnMetadata column, UpdateParameters params) throws InvalidRequestException
{
if (column.type.isMultiCell())
{
if (value == null)
return;
for (ByteBuffer bb : ((Value) value).elements)
{
if (bb == ByteBufferUtil.UNSET_BYTE_BUFFER)
continue;
params.addCell(column, CellPath.create(bb), ByteBufferUtil.EMPTY_BYTE_BUFFER);
}
}
else
{
// for frozen sets, we're overwriting the whole cell
if (value == null)
params.addTombstone(column);
else
params.addCell(column, value.get(ProtocolVersion.CURRENT));
}
}
}
// Note that this is reused for Map subtraction too (we subtract a set from a map)
public static class Discarder extends Operation
{
public Discarder(ColumnMetadata column, Term t)
{
super(column, t);
}
public void execute(DecoratedKey partitionKey, UpdateParameters params) throws InvalidRequestException
{
assert column.type.isMultiCell() : "Attempted to remove items from a frozen set";
Term.Terminal value = t.bind(params.options);
if (value == null || value == UNSET_VALUE)
return;
// This can be either a set or a single element
Set toDiscard = value instanceof Sets.Value
? ((Sets.Value)value).elements
: Collections.singleton(value.get(params.options.getProtocolVersion()));
for (ByteBuffer bb : toDiscard)
params.addTombstone(column, CellPath.create(bb));
}
}
public static class ElementDiscarder extends Operation
{
public ElementDiscarder(ColumnMetadata column, Term k)
{
super(column, k);
}
public void execute(DecoratedKey partitionKey, UpdateParameters params) throws InvalidRequestException
{
assert column.type.isMultiCell() : "Attempted to delete a single element in a frozen set";
Term.Terminal elt = t.bind(params.options);
if (elt == null)
throw new InvalidRequestException("Invalid null set element");
params.addTombstone(column, CellPath.create(elt.get(params.options.getProtocolVersion())));
}
}
}
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