org.eclipse.jetty.deploy.graph.Graph Maven / Gradle / Ivy
//
// ========================================================================
// Copyright (c) 1995-2013 Mort Bay Consulting Pty. Ltd.
// ------------------------------------------------------------------------
// All rights reserved. This program and the accompanying materials
// are made available under the terms of the Eclipse Public License v1.0
// and Apache License v2.0 which accompanies this distribution.
//
// The Eclipse Public License is available at
// http://www.eclipse.org/legal/epl-v10.html
//
// The Apache License v2.0 is available at
// http://www.opensource.org/licenses/apache2.0.php
//
// You may elect to redistribute this code under either of these licenses.
// ========================================================================
//
package org.eclipse.jetty.deploy.graph;
import java.util.HashSet;
import java.util.Set;
import java.util.concurrent.CopyOnWriteArrayList;
/**
* Basic directed graph implementation
*/
public class Graph
{
private Set _nodes = new HashSet();
private Set _edges = new HashSet();
public void addEdge(Edge edge)
{
Node fromNode = getNodeByName(edge.getFrom().getName());
if (fromNode==null)
addNode(fromNode=edge.getFrom());
Node toNode = getNodeByName(edge.getTo().getName());
if (toNode==null)
addNode(toNode=edge.getTo());
// replace edge with normalized edge
if (edge.getFrom()!=fromNode || edge.getTo()!=toNode)
edge=new Edge(fromNode,toNode);
this._edges.add(edge);
}
public void addEdge(String from, String to)
{
Node fromNode = getNodeByName(from);
if (fromNode==null)
{
fromNode = new Node(from);
addNode(fromNode);
}
Node toNode = getNodeByName(to);
if (toNode==null)
{
toNode = new Node(to);
addNode(toNode);
}
addEdge(fromNode,toNode);
}
private void addEdge(Node fromNode, Node toNode)
{
Edge edge = new Edge(fromNode,toNode);
addEdge(edge);
}
public void addNode(Node node)
{
this._nodes.add(node);
}
/**
* Convenience method for {@link #insertNode(Edge, Node)}
*
* @param edge
* the edge to split and insert a node into
* @param nodeName
* the name of the node to insert along the edge
*/
public void insertNode(Edge edge, String nodeName)
{
Node node = getNodeByName(nodeName);
if (node==null)
{
node = new Node(nodeName);
}
insertNode(edge,node);
}
/**
* Insert an arbitrary node on an existing edge.
*
* @param edge
* the edge to split and insert a node into
* @param node
* the node to insert along the edge
*/
public void insertNode(Edge edge, Node node)
{
// Remove existing edge
removeEdge(edge);
// Ensure node is added
addNode(node);
// Add start edge
addEdge(edge.getFrom(),node);
// Add second edge
addEdge(node,edge.getTo());
}
/**
* Find all edges that are connected to the specific node, both as an outgoing {@link Edge#getFrom()} or incoming
* {@link Edge#getTo()} end point.
*
* @param node
* the node with potential end points
* @return the set of edges connected to the node
*/
public Set findEdges(Node node)
{
Set fromedges = new HashSet();
for (Edge edge : this._edges)
{
if ((edge.getFrom() == node) || (edge.getTo() == node))
{
fromedges.add(edge);
}
}
return fromedges;
}
/**
* Find all edges that are connected {@link Edge#getFrom()} the specific node.
*
* @param from
* the node with potential edges from it
* @return the set of edges from the node
*/
public Set findEdgesFrom(Node from)
{
Set fromedges = new HashSet();
for (Edge edge : this._edges)
{
if (edge.getFrom() == from)
{
fromedges.add(edge);
}
}
return fromedges;
}
/**
* Convenience method for {@link #getPath(Node, Node)}
*
* @param nodeNameOrigin
* the name of the node to the path origin.
* @param nodeNameDest
* the name of the node to the path destination.
* @return the path to take
*/
public Path getPath(String nodeNameOrigin, String nodeNameDest)
{
if (nodeNameOrigin.equals(nodeNameDest))
{
return new Path();
}
Node from = getNodeByName(nodeNameOrigin);
Node to = getNodeByName(nodeNameDest);
return getPath(from,to);
}
/**
* Using BFS (Breadth First Search) return the path from a any arbitrary node to any other.
*
* @param from
* the node from
* @param to
* the node to
* @return the path to take or null if there is no path.
*/
public Path getPath(Node from, Node to)
{
if (from == to)
{
return new Path();
}
// Perform a Breadth First Search (BFS) of the tree.
Path path = breadthFirst(from,to,new CopyOnWriteArrayList(),new HashSet());
return path;
}
private Path breadthFirst(Node from, Node destination, CopyOnWriteArrayList paths, Set seen)
{
// Add next unseen segments to paths.
boolean edgesAdded = false;
if (paths.size()==0)
paths.add(new Path());
for (Path path : paths)
{
Set next = findEdgesFrom(path.nodes()==0?from:path.lastNode());
if (next.size() == 0)
continue; // no new edges
// Split path for other edges
int splits=0;
for (Edge edge:next)
{
if (seen.contains(edge))
continue;
seen.add(edge);
Path nextPath = (++splits==next.size())?path:path.forkPath();
// Add segment to split'd path
nextPath.add(edge);
// Are we there yet?
if (destination.equals(edge.getTo()))
return nextPath;
edgesAdded = true;
// Add to extra paths
if (nextPath!=path)
paths.add(nextPath);
}
}
if (edgesAdded)
return breadthFirst(from,destination,paths,seen);
return null;
}
public Set getEdges()
{
return _edges;
}
/**
* Get the Node by Name.
*
* @param name
* the name to lookup
* @return the node if found or null if not found.
*/
public Node getNodeByName(String name)
{
for (Node node : _nodes)
{
if (node.getName().equals(name))
{
return node;
}
}
return null;
}
public Set getNodes()
{
return _nodes;
}
public void removeEdge(Edge edge)
{
this._edges.remove(edge);
}
public void removeEdge(String fromNodeName, String toNodeName)
{
Node fromNode = getNodeByName(fromNodeName);
Node toNode = getNodeByName(toNodeName);
Edge edge = new Edge(fromNode,toNode);
removeEdge(edge);
}
public void removeNode(Node node)
{
this._nodes.remove(node);
}
public void setEdges(Set edges)
{
this._edges = edges;
}
public void setNodes(Set nodes)
{
this._nodes = nodes;
}
}
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