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find-critical-and-pseudo-critical-edges-in-minimum-spanning-tree.py
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find-critical-and-pseudo-critical-edges-in-minimum-spanning-tree.py
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# Time: O(nlogn)
# Space: O(n)
class UnionFind(object):
def __init__(self, n):
self.set = range(n)
self.count = n
def find_set(self, x):
if self.set[x] != x:
self.set[x] = self.find_set(self.set[x]) # path compression.
return self.set[x]
def union_set(self, x, y):
x_root, y_root = map(self.find_set, (x, y))
if x_root == y_root:
return False
self.set[max(x_root, y_root)] = min(x_root, y_root)
self.count -= 1
return True
class Solution(object):
def findCriticalAndPseudoCriticalEdges(self, n, edges):
"""
:type n: int
:type edges: List[List[int]]
:rtype: List[List[int]]
"""
def MST(n, edges, unused=None, used=None):
union_find = UnionFind(n)
weight = 0
if used is not None:
u, v, w, _ = edges[used]
if union_find.union_set(u, v):
weight += w
for i, (u, v, w, _) in enumerate(edges):
if i == unused:
continue
if union_find.union_set(u, v):
weight += w
return weight if union_find.count == 1 else float("inf")
for i, edge in enumerate(edges):
edge.append(i)
edges.sort(key=lambda x: x[2])
mst = MST(n, edges)
result = [[], []]
for i, edge in enumerate(edges):
if mst < MST(n, edges, unused=i):
result[0].append(edge[3])
elif mst == MST(n, edges, used=i):
result[1].append(edge[3])
return result