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count-number-of-possible-root-nodes.py
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# Time: O(n)
# Space: O(h)
import collections
# iterative dfs
class Solution(object):
def rootCount(self, edges, guesses, k):
"""
:type edges: List[List[int]]
:type guesses: List[List[int]]
:type k: int
:rtype: int
"""
def iter_dfs():
result = 0
stk = [(0, -1)]
while stk:
u, p = stk.pop()
result += int((p, u) in lookup)
for v in adj[u]:
if v == p:
continue
stk.append((v, u))
return result
def iter_dfs2(curr):
result = 0
stk = [(0, -1, curr)]
while stk:
u, p, curr = stk.pop()
if (p, u) in lookup:
curr -= 1
if (u, p) in lookup:
curr += 1
result += int(curr >= k)
for v in adj[u]:
if v == p:
continue
stk.append((v, u, curr))
return result
adj = collections.defaultdict(list)
for u, v in edges:
adj[u].append(v)
adj[v].append(u)
lookup = {(u, v) for u, v in guesses}
curr = iter_dfs()
return iter_dfs2(curr)
# Time: O(n)
# Space: O(h)
import collections
# dfs
class Solution2(object):
def rootCount(self, edges, guesses, k):
"""
:type edges: List[List[int]]
:type guesses: List[List[int]]
:type k: int
:rtype: int
"""
def dfs(u, p):
cnt = int((p, u) in lookup)
for v in adj[u]:
if v == p:
continue
cnt += dfs(v, u)
return cnt
def dfs2(u, p, curr):
if (p, u) in lookup:
curr -= 1
if (u, p) in lookup:
curr += 1
cnt = int(curr >= k)
for v in adj[u]:
if v == p:
continue
cnt += dfs2(v, u, curr)
return cnt
adj = collections.defaultdict(list)
for u, v in edges:
adj[u].append(v)
adj[v].append(u)
lookup = {(u, v) for u, v in guesses}
curr = dfs(0, -1)
return dfs2(0, -1, curr)
# Time: O(n) ~ O(n^2), worst case in star tree
# Space: O(n)
import collections
# memoization
class Solution3(object):
def rootCount(self, edges, guesses, k):
"""
:type edges: List[List[int]]
:type guesses: List[List[int]]
:type k: int
:rtype: int
"""
cnt = [0]
def memoization(u, p):
if (u, p) not in memo:
memo[u, p] = int((p, u) in lookup)
for v in adj[u]:
if v == p:
continue
cnt[0] += 1
memo[u, p] += memoization(v, u)
return memo[u, p]
adj = collections.defaultdict(list)
for u, v in edges:
adj[u].append(v)
adj[v].append(u)
lookup = {(u, v) for u, v in guesses}
memo = {}
return sum(memoization(i, -1) >= k for i in adj.iterkeys())