Nearest Neighbour Algorithm
P
import 'dart:math';
/// Graph represented as adjacency matrix
/// [nodes] - node names preserved in order
/// [adjacencyMatrix] edge weights, distances between nodes
class Graph {
List<String> nodes;
List<List<double>> adjacencyMatrix;
Graph(this.nodes, this.adjacencyMatrix);
}
/// Find path visiting all nodes in given [graph] using greedy approach
List<String> nearestNeighbourSearch(Graph graph) {
List<String> path = [];
Set<int> unvisitedNodes = Set.from(Iterable.generate(graph.nodes.length));
int currentNode = 0;
while (unvisitedNodes.isNotEmpty) {
unvisitedNodes.remove(currentNode);
int nearestNeighbour;
double nearestNeighbourDistance;
for (int neighbour in unvisitedNodes) {
double neighbourDistance = graph.adjacencyMatrix[currentNode][neighbour];
if (nearestNeighbour == null ||
neighbourDistance < nearestNeighbourDistance) {
nearestNeighbour = neighbour;
nearestNeighbourDistance = neighbourDistance;
}
}
path.add(graph.nodes[currentNode]);
currentNode = nearestNeighbour;
}
return path;
}
class Point {
double x;
double y;
@override
String toString() => "P($x, $y)";
Point(this.x, this.y);
}
/// Euclidean distance between [p1] and [p2]
double distance(Point p1, Point p2) {
return sqrt(pow(p2.x - p1.x, 2) + pow(p2.y - p1.y, 2));
}
/// Form graph using given [points].
/// Edge weights will correspond to distances
Graph fromPoints(List<Point> points) {
List<String> nodes = [];
List<List<double>> adjacencyMatrix = [];
for (Point p1 in points) {
List<double> neigbourDistances = [];
for (Point p2 in points) {
neigbourDistances.add(distance(p1, p2));
}
nodes.add(p1.toString());
adjacencyMatrix.add(neigbourDistances);
}
return Graph(nodes, adjacencyMatrix);
}
void main() {
Graph graph = Graph([
"A",
"B",
"C",
"D",
"E"
], [
[0, 12, 4, 54, 100],
[3, 0, 5, 1, 1],
[300, 20, 0, 433, 123],
[32, 31, 54, 0, 3],
[2, 65, 12, 32, 0]
]);
print(nearestNeighbourSearch(graph));
List<Point> points = [
new Point(0, 0),
new Point(0, 10),
new Point(-10, 10),
new Point(3.33, 8.11),
new Point(12, 11),
new Point(-1, 1),
new Point(-2, 2)
];
print(nearestNeighbourSearch(fromPoints(points)));
}
