# QuickGraph Dijkstra example

I have an `AdjacencyGraph<string, Edge<string>>` which I would like to run `AlgorithmExtensions.ShortestPathsDijkstra` on, but the QuickGraph documentation isn't the best.

Does anyone have an example I can follow?

Everything I found on on Google used an observer, which the AlgorithmExtension doesn't require.

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I've updated the docs but in a nutshell, you need a graph, a edge weight map (as a delegate) and a root vertex. The AlgorithmExtensions method returns a 'TryFunc' that you can query to fetch shortest paths.

``````using QuickGraph;
using QuickGraph.Algorithms;

IVertexAndEdgeListGraph<TVertex, TEdge> graph = ...;
Func<TEdge, double> edgeCost = e => 1; // constant cost
TVertex root = ...;

// compute shortest paths
TryFunc<TVertex, TEdge> tryGetPaths = graph.ShortestPathDijkstra(edgeCost, root);

// query path for given vertices
TVertex target = ...;
IEnumerable<TEdge> path;
if (tryGetPaths(target, out path))
foreach(var edge in path)
Console.WriteLine(edge);
``````
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@Peli: How do I use this algorithm with the dependency on Func<T,U> in .NET 2.0? Does QuikcGrpah support that? –  Jared Updike Mar 2 '10 at 1:38

Example taken from quickgraph.codeplex.com on running Dijkstra's Algorithm on a QuickGraph.

``````AdjacencyGraph<string, Edge<string>> graph = new AdjacencyGraph<string, Edge<string>>(true);

// Add some vertices to the graph

// Create the edges
Edge<string> a_b = new Edge<string>("A", "B");
Edge<string> a_d = new Edge<string>("A", "D");
Edge<string> b_a = new Edge<string>("B", "A");
Edge<string> b_c = new Edge<string>("B", "C");
Edge<string> b_e = new Edge<string>("B", "E");
Edge<string> c_b = new Edge<string>("C", "B");
Edge<string> c_f = new Edge<string>("C", "F");
Edge<string> c_j = new Edge<string>("C", "J");
Edge<string> d_e = new Edge<string>("D", "E");
Edge<string> d_g = new Edge<string>("D", "G");
Edge<string> e_d = new Edge<string>("E", "D");
Edge<string> e_f = new Edge<string>("E", "F");
Edge<string> e_h = new Edge<string>("E", "H");
Edge<string> f_i = new Edge<string>("F", "I");
Edge<string> f_j = new Edge<string>("F", "J");
Edge<string> g_d = new Edge<string>("G", "D");
Edge<string> g_h = new Edge<string>("G", "H");
Edge<string> h_g = new Edge<string>("H", "G");
Edge<string> h_i = new Edge<string>("H", "I");
Edge<string> i_f = new Edge<string>("I", "F");
Edge<string> i_j = new Edge<string>("I", "J");
Edge<string> i_h = new Edge<string>("I", "H");
Edge<string> j_f = new Edge<string>("J", "F");

// Define some weights to the edges
Dictionary<Edge<string>, double> edgeCost = new Dictionary<Edge<string>, double>(graph.EdgeCount);

// We want to use Dijkstra on this graph
DijkstraShortestPathAlgorithm<string, Edge<string>> dijkstra = new DijkstraShortestPathAlgorithm<string, Edge<string>>(graph, edgeCost);

// attach a distance observer to give us the shortest path distances
VertexDistanceRecorderObserver<string, Edge<string>> distObserver = new VertexDistanceRecorderObserver<string, Edge<string>>();
distObserver.Attach(dijkstra);

// Attach a Vertex Predecessor Recorder Observer to give us the paths
VertexPredecessorRecorderObserver<string, Edge<string>> predecessorObserver = new VertexPredecessorRecorderObserver<string, Edge<string>>();
predecessorObserver.Attach(dijkstra);

// Run the algorithm with A set to be the source
dijkstra.Compute("A");

foreach (KeyValuePair<string, int> kvp in distObserver.Distances)
Console.WriteLine("Distance from root to node {0} is {1}", kvp.Key, kvp.Value);

foreach(KeyValuePair<string, Edge<string>> kvp in predecessorObserver.VertexPredecessors)
Console.WriteLine("If you want to get to {0} you have to enter through the in edge {1}", kvp.Key, kvp.Value );

// Remember to detach the observers
distObserver.Detach(dijkstra);
predecessorObserver.Detach(dijkstra);
``````
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Yes, I've seen this, but I'd like to avoid managing the observer myself. The AlgorithmExtension handles this, and example of that is what I'm looking for. –  Benoit Apr 1 '09 at 3:15

Here's another sample (this runs in LinqPad -- be sure to F4 and add a reference to the QuickGraph dll)

``````void Main()
{
const int nNodes = 10;
var graphAsDict = RandomGraphWithSelfEdgeAsDict(nNodes).Dump("graphAsDict: Random graph as Dict");

var velg1 = graphAsDict.ToVertexAndEdgeListGraph(
kv => Array.ConvertAll<int, SEquatableEdge<int>>(
kv.Value.ToArray(),
v => new SEquatableEdge<int>(kv.Key, v))).Dump("velg1: Vertex and Edge-List Graph");

Func<SEquatableEdge<int>, double> edgeCost = (edge => 1.0D);

int start = new Random(Guid.NewGuid().GetHashCode()).Next(1, nNodes + 1).Dump("start point");
int end = new Random(Guid.NewGuid().GetHashCode()).Next(1, nNodes + 1).Dump("end point");

var algo = new DijkstraShortestPathAlgorithm<int, SEquatableEdge<int>>(velg1, edgeCost);
var predecessors = new VertexPredecessorRecorderObserver<int, SEquatableEdge<int>>();
using (predecessors.Attach(algo))
{
algo.Compute(start);
IEnumerable<SEquatableEdge<int>> path;
if (predecessors.TryGetPath(end, out path).Dump("TryGetPath"))
path.Dump("path");
}
}

public static int[] RandomPermutation(Random ran, int n)
{
var r = Enumerable.Range(1, n).ToArray();
for (var i = 0; i < n - 1; i++)
{
var k = ran.Next(i + 1, n);
var t = r[i];
r[i] = r[k];
r[k] = t;
}
return r;
}

public static Dictionary<int, IEnumerable<int>>
RandomGraphWithSelfEdgeAsDict(int nNodes)
{
var ran = new Random(Guid.NewGuid().GetHashCode());
var result = new Dictionary<int, IEnumerable<int>>();

for (var j = 1; j <= nNodes; j++)
{
var k = ran.Next(0, nNodes);
var cs = RandomPermutation(ran, nNodes);
result[j] = cs.Take(k);
}

return result;
}
``````
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