记忆点:
- 前序:VLR
- 中序:LVR
- 后序:LRV
举例:
一颗二叉树如下图所示:
则它的前序、中序、后序遍历流程如下图所示:
1.前序遍历
class Solution:
def preorderTraversal(self, root: TreeNode):
def preorder(root: TreeNode):
if not root:
return
res.append(root.val)
preorder(root.left)
preorder(root.right)
res = []
preorder(root)
return res2.中序遍历
class Solution:
def inorderTraversal(self, root: TreeNode):
def inorder(root: TreeNode):
if not root:
return
inorder(root.left)
res.append(root.val)
inorder(root.right)
res = []
inorder(root)
return res3.后序遍历
class Solution:
def postorderTraversal(self, root: TreeNode):
def postorder(root: TreeNode):
if not root:
return
postorder(root.left)
res.append(root.val)
postorder(root.right)
res = []
postorder(root)
return res4.测试
class TreeNode:
def __init__(self, val=0, left=None, right=None):
self.val = val
self.left = left
self.right = right
# 用列表递归创建二叉树
def createTree(root,list_n,i):
if i <len(list_n):
if list_n[i] == 'null':
return None
else:
root = TreeNode(val = list_n[i])
root.left = createTree(root.left,list_n,2*i+1)
root.right = createTree(root.right,list_n,2*i+2)
return root
return root
class Solution:
def preorderTraversal(self, root: TreeNode): # 前序
def preorder(root: TreeNode):
if not root:
return
res.append(root.val)
preorder(root.left)
preorder(root.right)
res = []
preorder(root)
return res
def inorderTraversal(self, root: TreeNode): # 中序
def inorder(root: TreeNode):
if not root:
return
inorder(root.left)
res.append(root.val)
inorder(root.right)
res = []
inorder(root)
return res
def postorderTraversal(self, root: TreeNode): # 后序
def postorder(root: TreeNode):
if not root:
return
postorder(root.left)
postorder(root.right)
res.append(root.val)
res = []
postorder(root)
return res
if __name__ == "__main__":
root = TreeNode()
list_n = [1,2,3,4,5,6,7,8,'null',9,10]
root = createTree(root,list_n,0)
s = Solution()
res_pre = s.preorderTraversal(root)
res_in = s.inorderTraversal(root)
res_post = s.postorderTraversal(root)
print(res_pre)
print(res_in)
print(res_post)5.结果
6.补充
6.1N叉树前序遍历
"""
# Definition for a Node.
class Node:
def __init__(self, val=None, children=None):
self.val = val
self.children = children
"""
class Solution:
def postorder(self, root: 'Node') -> List[int]:
def seq(root):
if not root:
return
res.append(root.val)
for child in root.children:
seq(child)
res = []
seq(root)
return res
N叉树后序遍历
"""
# Definition for a Node.
class Node:
def __init__(self, val=None, children=None):
self.val = val
self.children = children
"""
class Solution:
def postorder(self, root: 'Node') -> List[int]:
def seq(root):
if not root:
return
for child in root.children:
seq(child)
res.append(root.val)
res = []
seq(root)
return res到此这篇关于Python 递归式实现二叉树前序,中序,后序遍历的文章就介绍到这了,更多相关二叉树前序,中序,后序遍历内容请搜索编程网以前的文章或继续浏览下面的相关文章希望大家以后多多支持编程网!
