# -*- coding: utf-8 -*- import math class my_queue: def __init__(self): self.data = [] self.head = 0 self.tail = 0 def isEmpty(self): return self.head == self.tail def push(self,data): self.data.append(data) self.tail = self.tail + 1 def pop(self): ret = self.data[self.head] self.head = self.head + 1 return ret def count(self): return self.tail - self.head def print(self): print(self.data) print("**************") print(self.data[self.head:self.tail]) class my_node: def __init__(self,data): self.data = data self.left = None self.right = None self.height = 1 def getdata(self): return self.data def getleft(self): return self.left def getright(self): return self.right def getheight(self): return self.height def setdata(self,data): self.data = data return def setleft(self,node): self.left = node return def setright(self,node): self.right = node return def setheight(self,height): self.height = height return def getheight(node): # print("xxx") if node is None: return 0 return node.getheight() def my_max(a,b): if a > b: return a return b def leftrotation(node): ret = node.getleft() node.setleft(ret.getright()) ret.setright(node) h1 = my_max(getheight(node.getright()),getheight(node.getleft())) + 1 node.setheight(h1) h2 = my_max(getheight(ret.getright()),getheight(ret.getleft())) + 1 ret.setheight(h2) return ret def rightrotation(node): ret = node.getright() node.setright(ret.getleft()) ret.setleft(node) h1 = my_max(getheight(node.getright()),getheight(node.getleft())) + 1 node.setheight(h1) h2 = my_max(getheight(ret.getright()),getheight(ret.getleft())) + 1 ret.setheight(h2) return ret def lrrotation(node): node.setright(leftrotation(node.getright())) return rightrotation(node) def rlrotation(node): node.setleft(rightrotation(node.getleft())) return leftrotation(node) def insert_node(node,data): if node is None: return my_node(data) if data < node.getdata(): node.setleft(insert_node(node.getleft(),data)) if getheight(node.getleft()) - getheight(node.getright()) == 2: if data < node.getleft().getdata(): node = leftrotation(node) else: node = rlrotation(node) else: node.setright(insert_node(node.getright(),data)) if getheight(node.getright()) - getheight(node.getleft()) == 2: if data < node.getright().getdata(): node = lrrotation(node) else: node = rightrotation(node) h1 = my_max(getheight(node.getright()),getheight(node.getleft())) + 1 node.setheight(h1) return node class AVLtree: def __init__(self): self.root = None def getheight(self): # print("yyy") return getheight(self.root) def insert(self,data): self.root = insert_node(self.root,data) def traversale(self): q = my_queue() q.push(self.root) layer = self.getheight() cnt = 0 while not q.isEmpty(): node = q.pop() space = " "*int(math.pow(2,layer) - 1) print(space,end = " ") if node is None: print("*",end = " ") else: print(node.getdata(),end = " ") q.push(node.getleft()) q.push(node.getright()) print(space,end = " ") cnt = cnt + 1 for i in range(100): if cnt == math.pow(2,i) - 1: layer = layer -1 print() break print() print("*************************************") return def test(self): getheight(None) print("****") self.getheight() if __name__ == "__main__": # t = AVLtree() # t.test() # q = my_queue() ## q.push(1) ## q.push(2) # for i in range(10): # q.push(i) # q.print() # q.push(90) # q.print() # # q.pop() # q.print() t = AVLtree() t.traversale() # t.insert(7) # t.traversale() t.insert(8) t.traversale() t.insert(3) t.traversale() t.insert(6) t.traversale() t.insert(1) t.traversale() t.insert(10) t.traversale() t.insert(14) t.traversale() t.insert(13) t.traversale() # t.traversale() t.insert(4) t.traversale() t.insert(7) t.traversale()