• Python实现自平衡二叉树AVL


    # -*- coding: utf-8 -*-
    from enum import Enum
    
    #参考http://blog.csdn.net/niteip/article/details/11840691/
    #参考https://www.cnblogs.com/suimeng/p/4560056.html
    #todo 还没有考虑高度的增减,只考虑了平衡因子
    #todo 加上非递归遍历二叉树
    
    class BFStatus(Enum):
        # 左子树的高度减去右子树的高度 RH,EH,LH分别表示右子树较高,左右子树等高,左子树较高
        LH = 1
        EH = 0
        RH = -1
    
    class TreeNode(object):
        def __init__(self):
            self.lson = None
            self.rson = None
            self.pnode = None
            self.data = None
            self.freq = 0
            self.hgt = -1
            self.bfstatus = BFStatus().EH
    
    class AVLTree(object):
        def __init__(self,root_node):
            self.root = TreeNode
    
        def height(self,node):
            if node is not None:
                return node.hgt
            return -1
    
        def max(self,campa,campb):
            if campa > campb:
                return campa
            else:
                return campb
    
        def single_rotate_right(self, node):  # 右单旋转 RR
            parent_node = node.pnode
            node1 = node.lson
            node.lson = node1.rson
            node1.rson = node
            if parent_node.lson == node:
                parent_node.lson = node1
            else:
                parent_node.rson = node1
            node1.pnode = parent_node
            node.pnode = node1
    
        def single_rotate_left(self, node):  # 左单旋转 LL
            parent_node = node.pnode
            node1 = node.rson
            node.rson = node1.lson
            node1.lson = node
            if parent_node.lson == node:
                parent_node.lson = node1
            else:
                parent_node.rson = node1
            node1.pnode = parent_node
            node.pnode = node1
    
        def LeftBalance(self,node):
            lchild = node.lson
            BFStatus_code = BFStatus()
            if lchild.bfstatus == BFStatus_code.EH:
                node.bfstatus = lchild.bfstatus = BFStatus_code.LH
                lchild.bfstatus = BFStatus.RH
                self.single_rotate_right(node)
            elif lchild.bfstatus == BFStatus_code.LH:#LL型
                node.bfstatus = lchild.bfstatus = BFStatus.EH
                self.single_rotate_right(node)
            elif lchild.bfstatus == BFStatus.RH:#LR型
                rchild = lchild.rson
                if rchild.bfstatus == BFStatus.EH:
                    node.bfstatus = BFStatus.RH
                    lchild.bfstatus = BFStatus.EH
                elif rchild.bfstatus == BFStatus.LH:
                    node.bfstatus = BFStatus.EH
                    lchild.bfstatus = BFStatus.LH
                elif rchild.bfstatus == BFStatus.RH:
                    node.bfstatus = BFStatus.EH
                    lchild.bfstatus = BFStatus.EH
                rchild.bfstatus = BFStatus.EH
                self.single_rotate_left(lchild)
                self.single_rotate_right(node)
    
        def RightBalance(self,node):
            rchild = node.rson
            BFStatus_code = BFStatus()
            if rchild.bfstatus == BFStatus_code.RH:
                node.bfstatus = node.bfstatus = BFStatus_code.EH
                self.single_rotate_left(node)
            elif rchild.bfstatus == BFStatus_code.EH:#LL型
                node.bfstatus = rchild.bfstatus = BFStatus.RH
                rchild.bfstatus = BFStatus.LH
                self.single_rotate_left(node)
            elif rchild.bfstatus == BFStatus.LH:#LR型
                lchild = rchild.lson
                if lchild.bfstatus == BFStatus.LH:
                    node.bfstatus = BFStatus.EH
                    rchild.bfstatus = BFStatus.RH
                elif lchild.bfstatus == BFStatus.RH:
                    node.bfstatus = BFStatus.LH
                    rchild.bfstatus = BFStatus.EH
                elif lchild.bfstatus == BFStatus.EH:
                    node.bfstatus = BFStatus.EH
                    rchild.bfstatus = BFStatus.EH
                lchild.bfstatus = BFStatus.EH
                self.single_rotate_right(rchild)
                self.single_rotate_left(node)
    
    
        def insertpri(self,node,data,stack_list,taller_param=True):
            if node == None:
                node = TreeNode()
                node.data = data
                node.pnode = stack_list[-1]
            else:
                stack_list.append(node)
                if node.data < data:
                    (sign,taller) = self.insertpri(node.lson,data,stack_list)
                    if sign == False:
                        return (False,taller_param)
    
                    if taller == True:
    
                        if node.bfstatus == BFStatus().LH:
                            self.LeftBalance(node)
                            taller_param = False
                        elif node.bfstatus == BFStatus().EH:
                            node.bfstatus =  BFStatus().LH
                            taller_param = True
                        elif node.bfstatus == BFStatus().RH:
                            node.bfstatus =  BFStatus().EH
                            taller_param = False
    
                elif node.data > data:
                    stack_list.append(node)
                    if node.data < data:
                        (sign, taller) = self.insertpri(node.rson, data, stack_list)
                        if sign == False:
                            return (False, taller_param)
    
                        if taller == True:
                            if node.bfstatus == BFStatus().LH:
                                node.bfstatus = BFStatus().EH
                                taller_param = False
                            elif node.bfstatus == BFStatus().EH:
                                node.bfstatus = BFStatus().RH
                                taller_param = True
                            elif node.bfstatus == BFStatus().RH:
                                self.RightBalance(node)
                                taller_param = False
                else:
                    node.freq += 1
    
            return (True,taller_param)
    
        def insert(self,data):
            stack_list = []
            self.insertpri(self.root,data,stack_list)
    
    
        def searchpri(self,node,data):
            if node is None:
                return None
    
            elif node.data > data:
                self.searchpri(node.lson,data)
    
            elif node.data < data:
                self.searchpri(node.rson,data)
    
            else:
                return node
    
        def search(self,data):
            self.searchpri(self.root,data)
    
        def go_far_left(self,node):
            if node.lson is None:
                return node
            else:
                self.go_far_left(node.lson)
    
        def go_far_right(self,node):
            if node.rson is None:
                return node
            else:
                self.go_far_right(node.rson)
    
        def delete_left(self,node,bfchild):
            #当bf为-1或1变为0,或者孩子为空时说明子树高降低
            if node.lson is None or (bfchild != BFStatus().EH and node.lson.bfstatus == BFStatus().EH):
                #左子树树高降低
                if node.bfstatus == BFStatus().EH:
                    node.bfstatus = BFStatus().RH
                elif node.bfstatus == BFStatus().LH:
                    node.bfstatus = BFStatus().EH
                elif node.bfstatus == BFStatus().RH:#原本右子树比较高
                    self.RightBalance(node)
    
        def delete_right(self,node,bfchild):
            #当bf为LH或RH变为EH,或者孩子为空时说明子树高降低
            if node.rson is None or (bfchild != BFStatus().EH and node.rson.bfstatus == BFStatus().EH):
                #左子树树高降低
                if node.bfstatus == BFStatus().EH:
                    node.bfstatus = BFStatus().LH
                elif node.bfstatus == BFStatus().RH:
                    node.bfstatus = BFStatus().EH
                elif node.bfstatus == BFStatus().LH:#原本左子树比较高
                    self.LeftBalance(node)
    
        def deletepri(self,node,data):
            bfchild = BFStatus().EH
            if node == None:
                return None
            if node.data > data:
                bfchild = node.lson.bfstatus
                node.lson = self.deletepri(node.lson,data)
                self.delete_left(node,bfchild)
    
            elif node.data < data:
                bfchild = node.rson.bfstatus
                node.rson = self.deletepri(node.rson, data)
                self.delete_left(node, bfchild)
    
            else:
                if node.lson is not None:   #不是叶子结点并且具有直接前驱
                    far_right_node = self.go_far_right(node.lson)#直接前驱
                    node.data = far_right_node.data
                    node.lson = self.deletepri(node.lson,far_right_node.data)#可以确定,删除的节点为当前节点的左子树的某一个节点
                    self.delete_left(node,bfchild)
                elif node.rson is not None:
                    far_left_node = self.go_far_left(node.rson)
                    node.data = far_left_node.data
                    node.rson = self.deletepri(node.rson,far_left_node.data)
                    self.delete_right(node,bfchild)
                else:#叶子结点
                    node = None
    
            return node
    
        def delete(self,data):
            self.deletepri(self.root,data)
    
    
        def insubtree(self,node):
            if node is None:
                return
            self.insubtree(node.lson)
            print(node.data)
            self.insubtree(node.rson)
    
        def traversal(self):
            self.insubtree(self.root)
    
    if __name__ == '__main__':
        root_node = TreeNode()
        tree_obj = AVLTree(root_node)
    

      

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  • 原文地址:https://www.cnblogs.com/wuxie1989/p/8193841.html
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