# class TreeNode:
# def __init__(self, x):
# self.val = x
# self.left = None
# self.right = None
#
# 代码中的类名、方法名、参数名已经指定,请勿修改,直接返回方法规定的值即可
#
#
# @param pRoot TreeNode类
# @return int整型二维数组
#
class Solution:
def Print(self , pRoot: TreeNode) -> List[List[int]]:
# write code here
if pRoot ==None:
return []
l2r=True
layers=[]
q=[]
q.append(pRoot)
while q:
current_layer=[]
for i in range(len(q)):
# l2r= not l2r
node=q.pop(0)
current_layer.append(node.val)
if node.left is not None:
q.append(node.left)
if node.right is not None:
q.append(node.right)
if l2r:
layers.append(current_layer)
else:
current_layer.reverse()
layers.append(current_layer)
l2r=not l2r
return layers
# def __init__(self, x):
# self.val = x
# self.left = None
# self.right = None
#
# 代码中的类名、方法名、参数名已经指定,请勿修改,直接返回方法规定的值即可
#
#
# @param pRoot TreeNode类
# @return int整型二维数组
#
class Solution:
def Print(self , pRoot: TreeNode) -> List[List[int]]:
# write code here
if pRoot ==None:
return []
l2r=True
layers=[]
q=[]
q.append(pRoot)
while q:
current_layer=[]
for i in range(len(q)):
# l2r= not l2r
node=q.pop(0)
current_layer.append(node.val)
if node.left is not None:
q.append(node.left)
if node.right is not None:
q.append(node.right)
if l2r:
layers.append(current_layer)
else:
current_layer.reverse()
layers.append(current_layer)
l2r=not l2r
return layers
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