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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.db.transform;
import org.apache.cassandra.db.DecoratedKey;
import org.apache.cassandra.db.DeletionTime;
import org.apache.cassandra.db.PartitionColumns;
import org.apache.cassandra.db.partitions.PartitionIterator;
import org.apache.cassandra.db.partitions.UnfilteredPartitionIterator;
import org.apache.cassandra.db.rows.*;
/**
* We have a single common superclass for all Transformations to make implementation efficient.
* we have a shared stack for all transformations, and can share the same transformation across partition and row
* iterators, reducing garbage. Internal code is also simplified by always having a basic no-op implementation to invoke.
*
* Only the necessary methods need be overridden. Early termination is provided by invoking the method's stop or stopInPartition
* methods, rather than having their own abstract method to invoke, as this is both more efficient and simpler to reason about.
*/
public abstract class Transformation>
{
// internal methods for StoppableTransformation only
void attachTo(BasePartitions partitions) { }
void attachTo(BaseRows rows) { }
/**
* Run on the close of any (logical) partitions iterator this function was applied to
*
* We stipulate logical, because if applied to a transformed iterator the lifetime of the iterator
* object may be longer than the lifetime of the "logical" iterator it was applied to; if the iterator
* is refilled with MoreContents, for instance, the iterator may outlive this function
*/
protected void onClose() { }
/**
* Run on the close of any (logical) rows iterator this function was applied to
*
* We stipulate logical, because if applied to a transformed iterator the lifetime of the iterator
* object may be longer than the lifetime of the "logical" iterator it was applied to; if the iterator
* is refilled with MoreContents, for instance, the iterator may outlive this function
*/
protected void onPartitionClose() { }
/**
* Applied to any rows iterator (partition) we encounter in a partitions iterator
*/
protected I applyToPartition(I partition)
{
return partition;
}
/**
* Applied to any row we encounter in a rows iterator
*/
protected Row applyToRow(Row row)
{
return row;
}
/**
* Applied to any RTM we encounter in a rows/unfiltered iterator
*/
protected RangeTombstoneMarker applyToMarker(RangeTombstoneMarker marker)
{
return marker;
}
/**
* Applied to the partition key of any rows/unfiltered iterator we are applied to
*/
protected DecoratedKey applyToPartitionKey(DecoratedKey key) { return key; }
/**
* Applied to the static row of any rows iterator.
*
* NOTE that this is only applied to the first iterator in any sequence of iterators filled by a MoreContents;
* the static data for such iterators is all expected to be equal
*/
protected Row applyToStatic(Row row)
{
return row;
}
/**
* Applied to the partition-level deletion of any rows iterator.
*
* NOTE that this is only applied to the first iterator in any sequence of iterators filled by a MoreContents;
* the static data for such iterators is all expected to be equal
*/
protected DeletionTime applyToDeletion(DeletionTime deletionTime)
{
return deletionTime;
}
/**
* Applied to the {@code PartitionColumns} of any rows iterator.
*
* NOTE: same remark than for applyToDeletion: it is only applied to the first iterator in a sequence of iterators
* filled by MoreContents.
*/
protected PartitionColumns applyToPartitionColumns(PartitionColumns columns)
{
return columns;
}
//******************************************************
// Static Application Methods
//******************************************************
public static UnfilteredPartitionIterator apply(UnfilteredPartitionIterator iterator, Transformation super UnfilteredRowIterator> transformation)
{
return add(mutable(iterator), transformation);
}
public static PartitionIterator apply(PartitionIterator iterator, Transformation super RowIterator> transformation)
{
return add(mutable(iterator), transformation);
}
public static UnfilteredRowIterator apply(UnfilteredRowIterator iterator, Transformation> transformation)
{
return add(mutable(iterator), transformation);
}
public static RowIterator apply(RowIterator iterator, Transformation> transformation)
{
return add(mutable(iterator), transformation);
}
static UnfilteredPartitions mutable(UnfilteredPartitionIterator iterator)
{
return iterator instanceof UnfilteredPartitions
? (UnfilteredPartitions) iterator
: new UnfilteredPartitions(iterator);
}
static FilteredPartitions mutable(PartitionIterator iterator)
{
return iterator instanceof FilteredPartitions
? (FilteredPartitions) iterator
: new FilteredPartitions(iterator);
}
static UnfilteredRows mutable(UnfilteredRowIterator iterator)
{
return iterator instanceof UnfilteredRows
? (UnfilteredRows) iterator
: new UnfilteredRows(iterator);
}
static FilteredRows mutable(RowIterator iterator)
{
return iterator instanceof FilteredRows
? (FilteredRows) iterator
: new FilteredRows(iterator);
}
/**
* Even though this method is sumilar to `mutable`, it supresses the optimisation of avoiding creating an additional
* wrapping interator object (which both creates an extra object and grows the call stack during the iteration), it
* should be used with caution.
*
* It is useful in cases when the input has to be checked for more contents rather than directly checking if it
* is stopped. For example, when concatenating two iterators (pseudocode):
*
* iter1 = [row(1), row(2), row(3)]
* iter2 = [row(4), row(5), row(6)]
*
* UnfilteredRowIterators.concat(DataLimits.cqlLimits(1).filter(iter1), DataLimits.cqlLimits(1).filter(iter1))
*
* Which should yield two rows: [row(1), row(4)].
*
* Using stacked transformations instead of wrapping would result into returning a single row, since the first
* iterator will signal the iterator is stopped.
*/
static UnfilteredRows wrapIterator(UnfilteredRowIterator iterator, PartitionColumns columns)
{
return new UnfilteredRows(iterator, columns);
}
static E add(E to, Transformation add)
{
to.add(add);
return to;
}
static E add(E to, MoreContents add)
{
to.add(add);
return to;
}
}
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