python 实现树结构的七种遍历
短信预约 -IT技能 免费直播动态提醒
class BTree(object):
def __init__(self, value=None, left=None, right=None):
self.val = value
self.left = left
self.right = right
self.dot = Digraph(comment='Binary Tree')
def create_BTree_By_List(array):
i = 1
# 将原数组拆成层次遍历的数组,每一项都储存这一层所有的节点的数据
level_order = []
sum = 1
while sum < len(array):
level_order.append(array[i - 1:2 * i - 1])
i *= 2
sum += i
level_order.append(array[i - 1:])
# BTree_list: 这一层所有的节点组成的列表
# forword_level: 上一层节点的数据组成的列表
def Create_BTree_One_Step_Up(BTree_list, forword_level):
new_BTree_list = []
i = 0
for elem in forword_level:
root = BTree(elem)
if 2 * i < len(BTree_list):
root.left = BTree_list[2 * i]
if 2 * i + 1 < len(BTree_list):
root.right = BTree_list[2 * i + 1]
new_BTree_list.append(root)
i += 1
return new_BTree_list
# 如果只有一个节点
if len(level_order) == 1:
return BTree(level_order[0][0])
else:
BTree_list = [BTree(elem) for elem in level_order[-1]] # 创建最后一层的节点列表
# 从下往上,逐层创建二叉树
for i in range(len(level_order) - 2, -1, -1):
BTree_list = Create_BTree_One_Step_Up(BTree_list, level_order[i])
return BTree_list[0]
class TreeTraversal():
@classmethod
def preorderTraversal_re(cls, root):
if not root: return []
return [root.val] + cls.preorderTraversal_re(root.left) + cls.preorderTraversal_re(root.right)
@classmethod
def preorderTraversal(cls, root):
if not root: return []
res, stack = [], [root]
while stack:
node = stack.pop()
res.append(node.val)
if node.right: stack.append(node.right)
if node.left: stack.append(node.left)
return res
@classmethod
def inorderTraversal_re(cls, root):
if not root: return []
return cls.inorderTraversal_re(root.left) + [root.val] + cls.inorderTraversal_re(root.right)
@classmethod
def inorderTraversal(cls, root):
if not root: return []
res, stack = [], []
while True:
while root:
stack.append(root)
root = root.left
if not stack: return res
node = stack.pop()
res.append(node.val)
if node.right: root = node.right
@classmethod
def postorderTraversal_re(cls, root):
if not root: return []
return cls.postorderTraversal_re(root.left) + cls.postorderTraversal_re(root.right) + [root.val]
@classmethod
def postorderTraversal(cls, root):
if not root: return []
res, stack = [], [root]
while stack:
node = stack.pop()
res.append(node.val)
if node.left: stack.append(node.left)
if node.right: stack.append(node.right)
return res[::-1]
@classmethod
def levelOrder(cls, root):
if not root: return []
res, q = [], [root]
while q:
length = len(q)
for _ in range(length):
node = q.pop(0)
res.append(node.val)
if node.left: q.append(node.left)
if node.right: q.append(node.right)
return res
if __name__ == '__main__':
array = [8, 6, 10, 5, 7, 9, 11]
my_tree = create_BTree_By_List(array)
my_tree.preorder()
print(TreeTraversal.preorderTraversal_re(my_tree))
print(TreeTraversal.preorderTraversal(my_tree))
print(TreeTraversal.inorderTraversal_re(my_tree))
print(TreeTraversal.inorderTraversal(my_tree))
print(TreeTraversal.postorderTraversal_re(my_tree))
print(TreeTraversal.postorderTraversal(my_tree))
print(TreeTraversal.levelOrder(my_tree))
免责声明:
① 本站未注明“稿件来源”的信息均来自网络整理。其文字、图片和音视频稿件的所属权归原作者所有。本站收集整理出于非商业性的教育和科研之目的,并不意味着本站赞同其观点或证实其内容的真实性。仅作为临时的测试数据,供内部测试之用。本站并未授权任何人以任何方式主动获取本站任何信息。
② 本站未注明“稿件来源”的临时测试数据将在测试完成后最终做删除处理。有问题或投稿请发送至: 邮箱/279061341@qq.com QQ/279061341
