org.apache.commons.configuration2.tree.UnionCombiner Maven / Gradle / Ivy
Show all versions of commons-configuration2 Show documentation
/*
* 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.commons.configuration2.tree;
import java.util.LinkedList;
import java.util.List;
/**
*
* A specialized implementation of the {@code NodeCombiner} interface that constructs a union from two passed in node
* hierarchies.
*
*
* The given source hierarchies are traversed, and their nodes are added to the resulting structure. Under some
* circumstances two nodes can be combined rather than adding both. This is the case if both nodes are single children
* (no lists) of their parents and do not have values. The corresponding check is implemented in the
* {@code findCombineNode()} method.
*
*
* Sometimes it is not possible for this combiner to detect whether two nodes can be combined or not. Consider the
* following two node hierarchies:
*
*
*
* Hierarchy 1:
*
* Database
* +--Tables
* +--Table
* +--name [users]
* +--fields
* +--field
* | +--name [uid]
* +--field
* | +--name [usrname]
* ...
*
*
*
* Hierarchy 2:
*
* Database
* +--Tables
* +--Table
* +--name [documents]
* +--fields
* +--field
* | +--name [docid]
* +--field
* | +--name [docname]
* ...
*
*
*
* Both hierarchies contain data about database tables. Each describes a single table. If these hierarchies are to be
* combined, the result should probably look like the following:
*
*
*
* Database
* +--Tables
* +--Table
* | +--name [users]
* | +--fields
* | +--field
* | | +--name [uid]
* | ...
* +--Table
* +--name [documents]
* +--fields
* +--field
* | +--name [docid]
* ...
*
*
*
* i.e. the {@code Tables} nodes should be combined, while the {@code Table} nodes should both be added to the resulting
* tree. From the combiner's point of view there is no difference between the {@code Tables} and the {@code Table} nodes
* in the source trees, so the developer has to help out and give a hint that the {@code Table} nodes belong to a list
* structure. This can be done using the {@code addListNode()} method; this method expects the name of a node, which
* should be treated as a list node. So if {@code addListNode("Table");} was called, the combiner knows that it must not
* combine the {@code Table} nodes, but add it both to the resulting tree.
*
*
* Another limitation is the handling of attributes: Attributes can only have a single value. So if two nodes are to be
* combined which both have an attribute with the same name, it is not possible to construct a proper union attribute.
* In this case, the attribute value from the first node is used.
*
*
* @since 1.3
*/
public class UnionCombiner extends NodeCombiner {
/**
* Combines the given nodes to a new union node.
*
* @param node1 the first source node
* @param node2 the second source node
* @return the union node
*/
@Override
public ImmutableNode combine(final ImmutableNode node1, final ImmutableNode node2) {
final ImmutableNode.Builder result = new ImmutableNode.Builder();
result.name(node1.getNodeName());
// attributes of the first node take precedence
result.addAttributes(node2.getAttributes());
result.addAttributes(node1.getAttributes());
// Check if nodes can be combined
final List children2 = new LinkedList<>(node2.getChildren());
node1.forEach(child1 -> {
final ImmutableNode child2 = findCombineNode(node1, node2, child1);
if (child2 != null) {
result.addChild(combine(child1, child2));
children2.remove(child2);
} else {
result.addChild(child1);
}
});
// Add remaining children of node 2
children2.forEach(result::addChild);
return result.create();
}
/**
*
* Tries to find a child node of the second source node, with which a child of the first source node can be combined.
* During combining of the source nodes an iteration over the first source node's children is performed. For each child
* node it is checked whether a corresponding child node in the second source node exists. If this is the case, these
* corresponding child nodes are recursively combined and the result is added to the combined node. This method
* implements the checks whether such a recursive combination is possible. The actual implementation tests the following
* conditions:
*
*
* - In both the first and the second source node there is only one child node with the given name (no list
* structures).
* - The given name is not in the list of known list nodes, i.e. it was not passed to the {@code addListNode()}
* method.
* - None of these matching child nodes has a value.
*
*
* If all of these tests are successful, the matching child node of the second source node is returned. Otherwise the
* result is null.
*
*
* @param node1 the first source node
* @param node2 the second source node
* @param child the child node of the first source node to be checked
* @return the matching child node of the second source node or null if there is none
*/
protected ImmutableNode findCombineNode(final ImmutableNode node1, final ImmutableNode node2, final ImmutableNode child) {
if (child.getValue() == null && !isListNode(child) && HANDLER.getChildrenCount(node1, child.getNodeName()) == 1
&& HANDLER.getChildrenCount(node2, child.getNodeName()) == 1) {
final ImmutableNode child2 = HANDLER.getChildren(node2, child.getNodeName()).get(0);
if (child2.getValue() == null) {
return child2;
}
}
return null;
}
}