# Hashmap representation of graph

I have a text file with graph edges, for example

1 2

1 3

2 5

etc. , and want to represent my graph in some way. I tried to use a hashmap, is it the best way to represent edges? And second question, how can I access first and second entries in my hashmap? My code here

``````    DataInputStream dStream = new DataInputStream(new FileInputStream("C:/Programming/Java/test.txt"));

HashMap<Integer, Integer> graphEdges = new HashMap<Integer, Integer>();
String line;
String[] firstSecond = line.split(" ");
int firstDigit = Integer.parseInt(firstSecond[0]);
int secondDigit = Integer.parseInt(firstSecond[1]);

graphEdges.put(firstDigit, secondDigit);
}

System.out.println(graphEdges);

}
``````
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As mentioned in the answers: Such a map is not appropriate here. You said that you want to "represent my graph in some way" - you should be more specific here. The efficiency (or even practical applicability) of most graph algorithms relies on a small subset of operations to be performed on the graph. The most common one: "Give me all neighbors of vertex X", or "Give me all edges with vertex X", ... You should think about which operations you need, and which structure is appropriate for that (maybe in a new, more detailled and focused question), or use an existing graph library. –  Marco13 May 15 at 12:57

A `HashMap` is not suited in this case since for a specified key you can have a single value. You need a map that can hold multiple values for a key. Guava has exactly this concept in Multimap with an implementations like ArrayListMultimap.

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+1. Even without Guava, a `Map<Integer, List<Integer>>` could be used. –  JB Nizet Feb 24 '13 at 8:54
@JB Nizet or `Map<Integer, Set<Integer>>` –  Benoît Guédas Feb 24 '13 at 8:58
@JBNizet Yes, if he is not able to use a thirdparty library then such a map (or a map of tuples or multiple maps, depending on his context) is the way to go. –  dan Feb 24 '13 at 8:59

A HashMap is not the best way to represent edges since graph traversal is not optimal. Going over a path of N edges requires N hashmap get() operations.

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To produce a PNG like this:

or an XML (GraphML) like this:

``````<?xml version="1.0" encoding="UTF-8"?>
<graphml xmlns="http://graphml.graphdrawing.org/xmlns"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://graphml.graphdrawing.org/xmlns http://graphml.graphdrawing.org/xmlns/1.0/graphml.xsd">
<graph id="G" edgedefault="directed">
<node id="Off" />
<node id="Standby" />
<node id="Fail" />
<node id="Oper" />
<node id="Recovery" />
<node id="Shutdown" />
<edge id="1" source="Off" target="Standby" />
<hyperedge>
<endpoint node=Standby" type="in" />
<endpoint node=Fail" type="out" />
<endpoint node=Oper" type="out" />
<endpoint node=Shutdown" type="out" />
</hyperedge>
<hyperedge>
<endpoint node=Fail" type="in" />
<endpoint node=Shutdown" type="out" />
<endpoint node=Recovery" type="out" />
</hyperedge>
<hyperedge>
<endpoint node=Oper" type="in" />
<endpoint node=Standby" type="out" />
<endpoint node=Fail" type="out" />
<endpoint node=Shutdown" type="out" />
</hyperedge>
<edge id="2" source="Shutdown" target="Off" />
<hyperedge>
<endpoint node=Recovery" type="in" />
<endpoint node=Oper" type="out" />
<endpoint node=Shutdown" type="out" />
</hyperedge>
</graph>
</graphml>
``````

You may do it yourself too:

``````public abstract class Edge {
protected final Node _endPoint1;
public Edge( Node endPoint ) {
_endPoint1 = endPoint;
}
public Node getEndPoint1() {
return _endPoint1;
}
}
``````

class DirectedEdge:

``````public final class DirectedEdge extends Edge {
private final Node[] _to;
public DirectedEdge( Node from, Node ... to ) {
super( from );
_to = to;
}
public Node getFrom() {
return _endPoint1;
}
public Node[] getTo() {
return _to;
}
}
``````

class Graph:

``````import java.util.LinkedHashMap;
import java.util.Map;
import java.util.Set;

public final class Graph {
private /* */ String              _name = "G";
private final Map< String, Node > _nodes = new LinkedHashMap<>();
private final Set< DirectedEdge > _edges = new LinkedHashSet<>();

public boolean addNode( Node node ) {
return _nodes.put( node._label, node ) == null;
}
public void addEdge( DirectedEdge edge ) {
}
public String getName() {
return _name;
}
public void setName( String name ) {
_name = name;
}
public final Map<String, Node> getNodes() {
return _nodes;
}
public final Set<DirectedEdge> getEdges() {
return _edges;
}
}
``````

class Main, example of use:

``````import java.io.File;

public class Main {
private static Graph getGraph() {
Graph graph = new Graph();
Node off      = new Node( "Off" );
Node standby  = new Node( "Standby" );
Node fail     = new Node( "Fail" );
Node oper     = new Node( "Oper" );
Node recovery = new Node( "Recovery" );
Node shutdown = new Node( "Shutdown" );
graph.addEdge( new DirectedEdge( off     , standby ));
graph.addEdge( new DirectedEdge( standby , fail, oper, shutdown ));
graph.addEdge( new DirectedEdge( fail    , shutdown, recovery ));
graph.addEdge( new DirectedEdge( oper    , standby, fail, shutdown ));
graph.addEdge( new DirectedEdge( shutdown, off ));
graph.addEdge( new DirectedEdge( recovery, oper, shutdown ));
return graph;
}
public static void main( String[] args ) throws Exception {
Graph graph = getGraph();
new DotFileGenerator().save( new File( "States.png"     ), graph );
new GraphMLGenerator().save( new File( "States.graphml" ), graph );
}
}
``````
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You can use a Map of List

``````HashMap<Integer, LinkedList<Integer>> graphEdges = new HashMap<Integer,LinkedList<Integer>>();
``````

This way you can map a node to more than one node

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