# Finding Articulation Points in Undirected Graph def computeAP(l): n = len(l) outEdgeCount = 0 low = [0] * n visited = [False] * n isArt = [False] * n def dfs(root, at, parent, outEdgeCount): if parent == root: outEdgeCount += 1 visited[at] = True low[at] = at for to in l[at]: if to == parent: pass elif not visited[to]: outEdgeCount = dfs(root, to, at, outEdgeCount) low[at] = min(low[at], low[to]) # AP found via bridge if at < low[to]: isArt[at] = True # AP found via cycle if at == low[to]: isArt[at] = True else: low[at] = min(low[at], to) return outEdgeCount for i in range(n): if not visited[i]: outEdgeCount = 0 outEdgeCount = dfs(i, i, -1, outEdgeCount) isArt[i] = outEdgeCount > 1 for x in range(len(isArt)): if isArt[x] == True: print(x) # Adjacency list of graph l = { 0: [1, 2], 1: [0, 2], 2: [0, 1, 3, 5], 3: [2, 4], 4: [3], 5: [2, 6, 8], 6: [5, 7], 7: [6, 8], 8: [5, 7], } computeAP(l)