Python数据结构之栈、队列及二叉树定义与用法浅析
作者:wklken
这篇文章主要介绍了Python数据结构之栈、队列及二叉树定义与用法,结合具体实例形式分析了Python数据结构中栈、队列及二叉树的定义与使用相关操作技巧,需要的朋友可以参考下
本文实例讲述了Python数据结构之栈、队列及二叉树定义与用法。分享给大家供大家参考,具体如下:
目前只实现了三种,栈、队列和二叉树,哪天得空继续补吧~
1. 栈
#栈 class Stack: def __init__(self,size = 16): self.stack = [] self.size = size self.top = -1 def setSize(self, size): self.size = size def isEmpty(self): if self.top == -1: return True else: return False def isFull(self): if self.top +1 == self.size: return True else: return False def top(self): if self.isEmpty(): raise Exception("StackIsEmpty") else: return self.stack[self.top] def push(self,obj): if self.isFull(): raise Exception("StackOverFlow") else: self.stack.append(obj) self.top +=1 def pop(self): if self.isEmpty(): raise Exception("StackIsEmpty") else: self.top -= 1 return self.stack.pop() def show(self): print(self.stack) s = Stack(5) s.push(1) s.push(2) s.push(3) s.push(4) s.push(5) s.show() s.pop() s.show() s.push(6) s.show()
运行结果:
2. 队列
#队列 class Queue: def __init__(self,size = 16): self.queue = [] self.size = size self.front = 0 self.rear = 0 def isEmpty(self): return self.rear == 0 def isFull(self): if (self.front - self.rear +1) == self.size: return True else: return False def first(self): if self.isEmpty(): raise Exception("QueueIsEmpty") else: return self.queue[self.front] def last(self): if self.isEmpty(): raise Exception("QueueIsEmpty") else: return self.queue[self.rear] def add(self,obj): if self.isFull(): raise Exception("QueueOverFlow") else: self.queue.append(obj) self.rear += 1 def delete(self): if self.isEmpty(): raise Exception("QueueIsEmpty") else: self.rear -=1 return self.queue.pop(0) def show(self): print(self.queue) q = Queue(3) q.add(1) q.add(2) q.show() q.delete() q.show()
运行结果:
3. 二叉树
#队列 class Queue: def __init__(self,size = 16): self.queue = [] self.size = size self.front = 0 self.rear = 0 def isEmpty(self): return self.rear == 0 def isFull(self): if (self.front - self.rear +1) == self.size: return True else: return False def first(self): if self.isEmpty(): raise Exception("QueueIsEmpty") else: return self.queue[self.front] def last(self): if self.isEmpty(): raise Exception("QueueIsEmpty") else: return self.queue[self.rear] def add(self,obj): if self.isFull(): raise Exception("QueueOverFlow") else: self.queue.append(obj) self.rear += 1 def delete(self): if self.isEmpty(): raise Exception("QueueIsEmpty") else: self.rear -=1 return self.queue.pop(0) def show(self): print(self.queue) #二叉树 class BinaryTreeNode: def __init__(self,data,left,right): self.left = left self.data = data self.right = right class BinaryTree: def __init__(self): self.root = None def makeTree(self,data,left,right): self.root = BinaryTreeNode(data,left,right) #left.root = right.root = None def isEmpty(self): if self.root is None: return True else: return False def preOrder(self,r): if r.root is not None: print(r.root.data) if r.root.left is not None: self.preOrder(r.root.left) if r.root.right is not None: self.preOrder(r.root.right) def inOrder(self,r): if r.root is not None: if r.root.left is not None: self.inOrder(r.root.left) print(r.root.data) if r.root.right is not None: self.inOrder(r.root.right) def postOrder(self,r): if r.root is not None: if r.root.left is not None: self.preOrder(r.root.left) if r.root.right is not None: self.preOrder(r.root.right) print(r.root.data) def levelOrder(self,a): q = Queue() r = a while r is not None: print(r.root.data) if r.root.left is not None: q.add(r.root.left) if r.root.right is not None: q.add(r.root.right) if q.isEmpty(): print("empty") r = None else: r = q.delete() r = BinaryTree() ra = BinaryTree() ra.makeTree(2,None,None) rb = BinaryTree() rb.makeTree(3,None,None) r.makeTree(1,ra,rb) print("前序遍历") r.preOrder(r) print("中序遍历") r.inOrder(r) print("后序遍历") r.postOrder(r) print("层级遍历") r.levelOrder(r)
运行结果:
后续实现了会慢慢补上~~旧的也会不断改进~~
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