class LockingTree:
def __init__(self, parent: List[int]):
n = len(parent)
self.locked = [-1] * n
self.parent = parent
self.children = [[] for _ in range(n)]
for son, fa in enumerate(parent[1:], 1):
self.children[fa].append(son)
def lock(self, num: int, user: int) -> bool:
if self.locked[num] == -1:
self.locked[num] = user
return True
return False
def unlock(self, num: int, user: int) -> bool:
if self.locked[num] == user:
self.locked[num] = -1
return True
return False
def upgrade(self, num: int, user: int) -> bool:
def dfs(x: int):
nonlocal find
for y in self.children[x]:
if self.locked[y] != -1:
self.locked[y] = -1
find = True
dfs(y)
x = num
while x != -1:
if self.locked[x] != -1:
return False
x = self.parent[x]
find = False
dfs(num)
if not find:
return False
self.locked[num] = user
return True
# Your LockingTree object will be instantiated and called as such:
# obj = LockingTree(parent)
# param_1 = obj.lock(num,user)
# param_2 = obj.unlock(num,user)
# param_3 = obj.upgrade(num,user)