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# Dijkstras algorithm in c#

Building a chart control that uses Dijkstras alg from scratch. I have scoured the internet trying to understand this algorithm. I think I finally understand it, but my code is failing to work properly. Hoping someone might be able to take a peek at this and see if they might know what the deal with it is...

I will paste in three methods as I think that is everything that might be needed.

For starters, I will say that I created my own Vertex datatype. It contains the ID of the node, the X and Y, a status string, and a parent which is also of vertex datatype, and distance of integer.

``````    //function to populate lists with all the vertices on the graph
private List<Vertex> getNodes()
{
myVertices.Clear();
//get all non-dg nodes in list
for (int i = 0; i < chtGraph.Series[0].Points.Count; i++)
{
Vertex vertice = new Vertex(chtGraph.Series[0].Points[i]["ID"], (float)chtGraph.Series[0].Points[i].XValue, (float)chtGraph.Series[0].Points[i].YValues[0], "UNVISITED", Convert.ToInt32(chtGraph.Series[0].Points[i].Label), double.PositiveInfinity, null);
myVertices.Insert(i, vertice);
}

//get all dg nodes in list
for (int i = 0; i < chtGraph.Series[1].Points.Count; i++)
{
Vertex vertice = new Vertex(chtGraph.Series[1].Points[i]["ID"], (float)chtGraph.Series[1].Points[i].XValue, (float)chtGraph.Series[1].Points[i].YValues[0], "UNVISITED", Convert.ToInt32(chtGraph.Series[1].Points[i].Label), double.PositiveInfinity, null);
myVertices.Insert(i, vertice);
}
return myVertices;
}

private List<Vertex> checkAdjacents(Vertex node, int intTransPower)
{
int distance;

for (int i = 0; i < myVertices.Count; i++)
{
if (node.id != myVertices[i].id)
{
distance = calcDistance(node.x, node.y, myVertices[i].x, myVertices[i].y);

if (distance <= intTransPower)
{
if (rdbTotalLength.Checked)
{
myVertices[i].distance = distance;
}
else if (rdbPathEnergy.Checked)
{
myVertices[i].distance = getCost(node, myVertices[i]);
}
else
{
myVertices[i].distance = 1;
}

myVertices[i].parent = node;

foreach (Vertex p in openList)
{
if (myVertices[i].id == p.id)
{
p.distance = myVertices[i].distance;
p.parent = myVertices[i].parent;
}
}
}
}
}

}
``````

And here is dijkstras.... currently isn't working properly and I just can't figure it out.

``````private void dijkstra(Vertex start, Vertex end)
{

openList.Clear();

//populate two lists with all the nodes in the graph
openList = getNodes();
myVertices = getNodes();

//adjacents list for each vertex visited

//final list that is populated with the final path of vertices
List<Edge> shortestPath = new List<Edge>();

//used in calculating adjacent nodes.  If distance is greater than transpower, then nodes are not connected
int intTransPower = Convert.ToInt32(txtTransPower.Text);

//set current vertex as the starting node
Vertex current = start;

//set initially to false
bool pathFound = false;

//find the starting node from the list of all vertices.  Set it's distance to 0
foreach (Vertex p in openList)
{
if (p.id == current.id)
{
p.status = current.status;
p.distance = 0;
}
}
foreach (Vertex p in myVertices)
{
if (p.id == current.id)
{
p.status = current.status;
p.distance = 0;
}
}

//reorder the list to bring the starting node to the first element
openList = openList.OrderBy(h => h.distance).ToList();

//this.insert(openList, current, true);

// Repeat while the openlist is not empty and you haven't reached the end
while (openList.Count > 0)
{
//remove node at element 0.  Sorted by smallest distance so it always gets removed first
current = openList[0];
openList.RemoveAt(0);

//if the current node = the ending node, then we have found the path.  Break loop and build the final path.
if (current.id == end.id)
{
pathFound = true;
break;
}

//collect up all the adjacent nodes for the current vertex
//does NOT include the current vertex we are on

{
float alt =  (float)current.distance + calcDistance(current.x, current.y, v.x, v.y);
Convert.ToInt32(alt);

if (alt < v.distance)
{
v.distance = alt;
v.parent = current;
for (int i = 0; i < openList.Count; i++)
{
if (v.id == openList[i].id)
{
openList[i].distance = alt;
openList[i].parent = current;
}
}
}

}
openList = openList.OrderBy(h => h.distance).ToList();
}

if (pathFound)
{
// collect path
this.foundPath.Clear();
Vertex last = current;
while (current != start && current != null)
{
if (current.parent == last)
break;
last = current;
current = current.parent;
}
}

}
``````
-
you should start writing unit tests aswell you can use graphviz.org to display the graph for manual debugging :) – NickD Oct 18 '12 at 18:47
"currently isn't working" Can you be more specific? – Magnus Oct 18 '12 at 19:11
It seems like it's working up to the point where it finds the end node and starts building the final path. THe idea is that it will take the ending node, look at the parent node tied to it, select that node and identify it's parent, etc. Until finally it gets back to start that has no parent node. Then, that should be stored in a path. From there I can draw lines that will show the path. But, this is not doing though. Once it drops in to start calc'ing that final path, it has node id such as: Node1, node2, node3, node3, node3, node4. So, it can't actually generate the correct path. – dvsoukup Oct 18 '12 at 20:46

I have this method, but it is part for a bigger implementation:

``````public static IDigraph DijkstrasAlgorithm(IDigraph g, int s)
{
//Collect number of vertices
int num1 = g.NumberOfVertices;

//create an array for vertices
Entry[] entryArray1 = new Graphos.Algorithms.Entry[num1];

//for each vertice create new instance for entry of edges
for (int num2 = 0; num2 < num1; num2++)
{
entryArray1[num2] = new Graphos.Algorithms.Entry(false, 0x7fffffff, 0x7fffffff);
}
//set vertice origin with distance 0.
entryArray1[s].distance = 0;

//create a list for edges
PriorityQueue queue1 = new BinaryHeap(g.NumberOfEdges);

//create initial nodes in edges list
queue1.Enqueue(new Association(0, g.GetVertex(s)));

//while list is not empty
while (!queue1.IsEmpty)
{
//creates an association
Association association1 = (Association)queue1.DequeueMin();

//attributes the vertice
IVertex vertex1 = (IVertex)association1.Value;

//if connection is known
if (!entryArray1[vertex1.Number].known)
{
//checks as known
entryArray1[vertex1.Number].known = true;

//foreach edge founded
foreach (Edge edge1 in vertex1.EmanatingEdges)
{
//creates the vertex that is being used
IVertex vertex2 = edge1.MateOf(vertex1);

//catches the weight since vertice in link
int num3 = entryArray1[vertex1.Number].distance + ((int)edge1.Weight);

//se o peso da ponte for menor que o peso maximo
if (entryArray1[vertex2.Number].distance > num3)
{
//Peso maximo é atualizado para o peso da ponte
entryArray1[vertex2.Number].distance = num3;

//Define o vértice vizinho
entryArray1[vertex2.Number].predecessor = vertex1.Number;

//adiciona o vértice com seu vizinho e o peso entre eles na lista
queue1.Enqueue(new Association(num3, vertex2));
}
}
}
}
//Á este ponto, todas as associações foram feitas

//Cria o objeto grafo como uma lista baseado no numero de vertices
IDigraph digraph1 = new DigraphAsLists(num1);

for (int num4 = 0; num4 < num1; num4++)
{
//adiciona o vertice da lista no grafo
}

for (int num5 = 0; num5 < num1; num5++)
{
//Se não for o ponto de origem
if (num5 != s)
{