二叉树的实现(补充)
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2023-11-10 23:45:10
二叉树的实现(补充) 本次实现的二叉树包括二叉树的先序遍历,中序遍历和后序遍历以及二叉树的层序遍历,还包括二叉树的高度,叶子节点以及反转二叉树 二叉树的层序遍历依然是使用Python内置的deque实现一个队列,根据队列先进先出(FIFO)的性质,先把二叉树的根节点放入队列中,判断队列是否为空,如果 ......
二叉树的实现(补充)
本次实现的二叉树包括二叉树的先序遍历,中序遍历和后序遍历以及二叉树的层序遍历,还包括二叉树的高度,叶子节点以及反转二叉树
二叉树的层序遍历依然是使用python内置的deque实现一个队列,根据队列先进先出(fifo)的性质,先把二叉树的根节点放入队列中,判断队列是否为空,如果不为空,则弹出一个元素,打印该元素的值,如果该元素有左孩子,则把左孩子入队,如果有右孩子,则把有孩子入队
代码:
1 from collections import deque
2
3
4 class queue: # 借助内置的 deque 我们可以迅速实现一个 queue
5 def __init__(self):
6 self._elem = deque()
7
8 def append(self, value):
9 return self._elem.append(value)
10
11 def pop(self):
12 return self._elem.popleft()
13
14 def empty(self):
15 return len(self._elem) == 0
16
17
18 class btree(object):
19 def __init__(self, data=none, left=none, right=none):
20 self.data = data
21 self.left = left
22 self.right = right
23
24 def preorder(self):
25 if self.data is not none:
26 print(self.data, end=',')
27 if self.left is not none:
28 self.left.preorder()
29 if self.right is not none:
30 self.right.preorder()
31
32 def midorder(self):
33 if self.left is not none:
34 self.left.midorder()
35 if self.data is not none:
36 print(self.data, end=',')
37 if self.right is not none:
38 self.right.midorder()
39
40 def postorder(self):
41 if self.left is not none:
42 self.left.postorder()
43 if self.right is not none:
44 self.right.postorder()
45 if self.data is not none:
46 print(self.data, end=',')
47
48 def levelorder(self):
49
50 # 返回某个节点的左孩子
51 def lchild_of_node(node):
52 return node.left if node.left is not none else none
53
54 # 返回某个节点的右孩子
55 def rchild_of_node(node):
56 return node.right if node.right is not none else none
57
58 # 层序遍历列表
59 level_order = []
60 # 是否添加根节点中的数据
61 if self.data is not none:
62 level_order.append([self])
63
64 # 二叉树的高度
65 height = self.height()
66 if height >= 1:
67 # 对第二层及其以后的层数进行操作, 在level_order中添加节点而不是数据
68 for _ in range(2, height + 1):
69 level = [] # 该层的节点
70 for node in level_order[-1]:
71 # 如果左孩子非空,则添加左孩子
72 if lchild_of_node(node):
73 level.append(lchild_of_node(node))
74 # 如果右孩子非空,则添加右孩子
75 if rchild_of_node(node):
76 level.append(rchild_of_node(node))
77 # 如果该层非空,则添加该层
78 if level:
79 level_order.append(level)
80
81 # 取出每层中的数据
82 for i in range(0, height): # 层数
83 for index in range(len(level_order[i])):
84 level_order[i][index] = level_order[i][index].data
85
86 return level_order
87
88 def height(self):
89 if self.data is none:
90 return 0
91 elif self.left is none and self.right is none:
92 return 1
93 elif self.left is none and self.right is not none:
94 return 1 + self.left.height()
95 elif self.left is not none and self.right is none:
96 return 1 + self.left.height()
97 else:
98 return 1 + max(self.left.height(), self.right.height())
99
100 def leaves(self):
101 if self.data is none:
102 return none
103 elif self.left is none and self.right is none:
104 print(self.data, end=',')
105 elif self.left is none and self.right is not none:
106 self.right.leaves()
107 elif self.left is not none and self.right is none:
108 self.left.leaves()
109 else:
110 self.left.leaves()
111 self.right.leaves()
112
113 # 反转二叉树
114 def reverse(self):
115 if self.data is not none:
116 if self.left and self.right:
117 self.left, self.right = self.right, self.left
118 self.left.reverse()
119 self.right.reverse()
120
121 # @staticmethod
122 # def layer_trav(subtree):
123 # cur_nodes = [subtree] # current layer nodes
124 # next_nodes = []
125 # while cur_nodes or next_nodes:
126 # for node in cur_nodes:
127 # print(node.data, end=',')
128 # if node.left:
129 # next_nodes.append(node.left)
130 # if node.right:
131 # next_nodes.append(node.right)
132 # cur_nodes = next_nodes # 继续遍历下一层
133 # next_nodes = []
134
135 @staticmethod
136 def layer_trav(subtree):
137 q = queue()
138 q.append(subtree)
139 while not q.empty():
140 node = q.pop()
141 print(node.data, end=',')
142 if node.left:
143 q.append(node.left)
144 if node.right:
145 q.append(node.right)
146
147
148 if __name__ == '__main__':
149 right_tree = btree(6)
150 right_tree.left = btree(2)
151 right_tree.right = btree(4)
152
153 left_tree = btree(5)
154 left_tree.left = btree(1)
155 left_tree.right = btree(3)
156
157 tree = btree(11)
158 tree.left = left_tree
159 tree.right = right_tree
160
161 left_tree = btree(7)
162 left_tree.left = btree(3)
163 left_tree.right = btree(4)
164
165 right_tree = tree # 增加新的变量
166 tree = btree(18)
167 tree.left = left_tree
168 tree.right = right_tree
169 tree.root = tree
170
171 print('先序遍历为:')
172 tree.preorder()
173 print('\n')
174
175 print('后序遍历为:')
176 tree.postorder()
177 print('\n')
178
179 print('中序遍历为:')
180 tree.midorder()
181 print('\n')
182
183 print('层序遍历为:')
184 level_order = tree.levelorder()
185 tree.layer_trav(tree)
186 print('\n')
187 print(level_order)
188
189 print('叶子节点为:')
190 tree.leaves()
191 print('\n')
192
193 print('树的高度为:')
194 print(tree.height())
195 print('\n')
196
197 print('反转二叉树')
198 tree.reverse()
199 print('先序遍历')
200 tree.preorder()
201 print('\n')
202 print('层序遍历')
203 tree.layer_trav(tree)