I have an algorithm for creating a list of all possible subgraphs on P vertices through a given vertex. It's not perfect but I think it should be working alright. The problem is I get lost when I try to calculate its time complexity.

I conjured up something like `T(p) = 2^d + 2^d * (n * T(p-1) )`

, where `d=Δ(G), p=#vertices required, n=|V|`

. It's really just a guess.
Can anyone help me with this?

The powerSet() algorithm used should be `O(2^d)`

or `O(d*2^d)`

.

```
private void connectedGraphsOnNVertices(int n, Set<Node> connectedSoFar, Set<Node> neighbours, List<Set<Node>> graphList) {
if (n==1) return;
for (Set<Node> combination : powerSet(neighbours)) {
if (connectedSoFar.size() + combination.size() > n || combination.size() == 0) {
continue;
} else if (connectedSoFar.size() + combination.size() == n) {
Set<Node> newGraph = new HashSet<Node>();
newGraph.addAll(connectedSoFar);
newGraph.addAll(combination);
graphList.add(newGraph);
continue;
}
connectedSoFar.addAll(combination);
for (Node node: combination) {
Set<Node> k = new HashSet<Node>(node.getNeighbours());
connectedGraphsOnNVertices(n, connectedSoFar, k, graphList);
}
connectedSoFar.removeAll(combination);
}
}
```