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@@ -1,142 +1,9 @@
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-#列表函数
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-def BinaryTree(r):
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- return [r, [], []]
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-#插入左子树
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-def insertLeft(root, newBranch):
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- t = root.pop(1)
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- if len(t) > 1:
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- root.insert(1, [newBranch, t, []])
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- else:
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- root.insert(1, [newBranch, [], []])
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- return root
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-
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-#插入右子树
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-def insertRight(root, newBranch):
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- t = root.pop(2)
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- if len(t) > 1:
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- root.insert(2, [newBranch, [], t])
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- else:
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- root.insert(2, [newBranch, [], []])
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- return root
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-
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-#树的访问函数
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-def getRootVal(root):
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- return root[0]
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-
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-def setRootVal(root, newval):
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- root[0] = newval
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-
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-def getLeftChild(root):
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- return root[1]
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-
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-def getRightChild(root):
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- return root[2]
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-
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-
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-# 二叉树的访问函数
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-def getLeftChild(self):
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- return self.leftChild
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-
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-def getRightChild(self):
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- return self.rightChild
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-
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-def setRootValue(self, obj):
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- self.key = obj
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-
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-def getRootValue(self):
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- return self.key
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-
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-
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-# 定义节点
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-class BinaryTree:
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- def __init__(self, rootObj):
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- self.key = rootObj
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- self.leftChild = None # 左子节点也是树
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- self.rightChild = None # 右子节点也是树
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-
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-# 插入左子节点
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-def insertLeft(self, newNode):
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- if self.leftChild == None:
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- self.leftChild = newNode
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- else:
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- t = BinaryTree(newNode)
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- t.leftChild = self.leftChild
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- self.leftChild = t
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-
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-# 插入右子节点
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-def insertRight(self, newNode):
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- if self.rightChild == None:
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- self.rightChild = newNode
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- else:
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- t = BinaryTree(newNode)
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- t.rightChild = self.rightChild
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- self.rightChild = t
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-
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-# 树的遍历
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-
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-# 前序
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-def preorder(tree):
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- if tree:
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- print(tree.getRootVal())
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- preorder(tree.getLeftChild())
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- preorder(tree.getRightChild())
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-
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-# 中序
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-def inorder(tree):
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- if tree:
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- inorder(tree.getLeftChild())
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- print(tree.getRootVal())
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- inorder(tree.getRightChild())
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-
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-# 后序
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-def postorder(tree):
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- if tree:
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- postorder(tree.getLeftChild())
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- postorder(tree.getRightChild())
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- print(tree.getRootVal())
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-
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-# 树
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-# class Bnode(object):
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-# def __init__(self, data, left=None, right=None):
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-# self.data = data
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-# self.left = left
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-# self.right = right
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-#
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-# class Btree(object):
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-# def __init__(self, root=None):
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-# self.root = root
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-#
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-# @classmethod
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-# def bulid(cls, list):
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-# node_dict = {}
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-# # 制作节点
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-# for item in list:
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-# data = item['data']
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-# node_dict[data] = Bnode(data)
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-# # 把节点组装成数
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-# for item in list:
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-# data = item['data']
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-# node = node_dict[data]
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-# if node['is_root']:
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-# root = node
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-# node.left = node_dict.get(item['left'])
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-# node.right = node_dict.get(item['right'])
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-# return cls(root)
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-#
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-# def preorder(self, subtree):
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-# # 先序
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-# if subtree is not None:
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-# print(subtree.data)
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-# self.preorder(subtree.left)
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-# self.preorder(subtree.right)
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-#
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-# def reverse(self, subtree):
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-# # 后序
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-# if subtree is not None:
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-# subtree.left, subtree.right = subtree.right, subtree.left
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-# self.reverse(self, subtree.left)
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-# self.reverse(self, subtree.right)
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+class TreeNode:
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+ def __init__(self, val=0, left=None, right=None):
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+ self.val = val
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+ self.left = left
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+ self.right = right
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# 回溯通用模板
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# res = []
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yan chuanli