1 二叉树结点
2 先序遍历二叉树
3 中序遍历二叉树
4 后序遍历二叉树
5 测试样例
1 二叉树结点
struct BinaryTreeNode
{
int m_nValue;
BinaryTreeNode *m_pLeft;
BinaryTreeNode *m_pRight;
};
2 先序遍历二叉树
先序遍历二叉树递归算法定义为:
若二叉树为空,则空操作;否则(1)访问根节点;(2)先序遍历左子树;(3)后序遍历右子树;
代码如下:
/* 递归先序遍历 */
void PreOrderTraverseTree(BinaryTreeNode *pRoot)
{
if (pRoot != NULL)
{
cout << pRoot->m_nValue << " ";
PreOrderTraverseTree(pRoot->m_pLeft);
PreOrderTraverseTree(pRoot->m_pRight);
}
}
先序遍历二叉树的非递归算法定义为:
我们首先创建一个堆栈stack<BinaryTreeNode *>nodes,首先让根节点入栈。
然后进入一个while循环,即 while(!nodes.empty()),每次弹出一个节点。遍历该节点的值,然后将其节点的右孩子入栈,再次将其节点的左孩子入栈。
直至while循环结束。
代码如下:
/* 非递归先序遍历 */
void PreOrderTraverseTreeNoRecursive(BinaryTreeNode *pRoot)
{
if (pRoot == NULL)
{
return;
}
stack<BinaryTreeNode *> nodes;
nodes.push(pRoot);
while (!nodes.empty())
{
BinaryTreeNode *pNode = nodes.top();
nodes.pop();
cout << pNode->m_nValue << " ";
if (pNode->m_pRight != NULL)
{
nodes.push(pNode->m_pRight);
}
if (pNode->m_pLeft != NULL)
{
nodes.push(pNode->m_pLeft);
}
}
}
3 中序遍历二叉树
中序遍历二叉树的递归算法如下:
若二叉树为空,则空操作;否则(1)中序遍历左子树;(2)访问根节点;(3)中序遍历右子树;
代码如下:
/* 递归中序遍历 */
void InOrderTraverseTree(BinaryTreeNode *pRoot)
{
if (pRoot != NULL)
{
InOrderTraverseTree(pRoot->m_pLeft);
cout << pRoot->m_nValue << " ";
InOrderTraverseTree(pRoot->m_pRight);
}
}
中序遍历二叉树的非递归算法如下:
/* 非递归中序遍历 */
void InOrderTraverseTreeNoRecursive(BinaryTreeNode *pRoot)
{
if (pRoot == NULL)
{
return;
}
stack<BinaryTreeNode *> nodes;
BinaryTreeNode *pCurrent = pRoot;
while (!nodes.empty() || pCurrent != NULL)
{
if (pCurrent != NULL)
{
nodes.push(pCurrent);
pCurrent = pCurrent->m_pLeft;
}
else
{
pCurrent = nodes.top();
nodes.pop();
cout << pCurrent->m_nValue << " ";
pCurrent = pCurrent->m_pRight;
}
}
}
4 后序遍历二叉树
后序遍历二叉树的递归算法如下:
若二叉树为空,则空操作;否则(1)后序遍历左子树;(2)后序遍历右子树;(3)访问根节点;
/* 递归后序遍历 */
void PostOrderTraverseTree(BinaryTreeNode *pRoot)
{
if (pRoot != NULL)
{
PostOrderTraverseTree(pRoot->m_pLeft);
PostOrderTraverseTree(pRoot->m_pRight);
cout << pRoot->m_nValue << " ";
}
}
后序遍历二叉树的非递归算法如下:
/* 非递归后序遍历 */
void PostOrderTraverseTreeNoRecursive(BinaryTreeNode *pRoot)
{
if (pRoot == NULL)
{
return;
}
stack<BinaryTreeNode *> traverseNodes;
stack<BinaryTreeNode *> nodes;
traverseNodes.push(pRoot);
while (!traverseNodes.empty())
{
BinaryTreeNode *pNode = traverseNodes.top();
traverseNodes.pop();
if (pNode->m_pLeft != NULL)
{
traverseNodes.push(pNode->m_pLeft);
}
if (pNode->m_pRight != NULL)
{
traverseNodes.push(pNode->m_pRight);
}
nodes.push(pNode);
}
while (!nodes.empty())
{
BinaryTreeNode *pNode = nodes.top();
nodes.pop();
cout << pNode->m_nValue << " ";
}
}
5 测试样例
文件 BinaryTree.h
struct BinaryTreeNode
{
int m_nValue;
BinaryTreeNode* m_pLeft;
BinaryTreeNode* m_pRight;
};
BinaryTreeNode* CreateBinaryTreeNode(int value);
void ConnectTreeNodes(BinaryTreeNode* pParent, BinaryTreeNode* pLeft, BinaryTreeNode* pRight);
void PrintTreeNode(BinaryTreeNode* pNode);
void PrintTree(BinaryTreeNode* pRoot);
void DestroyTree(BinaryTreeNode* pRoot);
文件 BinaryTree.cpp
#include "BinaryTree.h"
#include <cstdio>
BinaryTreeNode* CreateBinaryTreeNode(int value)
{
BinaryTreeNode* pNode = new BinaryTreeNode();
pNode->m_nValue = value;
pNode->m_pLeft = NULL;
pNode->m_pRight = NULL;
return pNode;
}
void ConnectTreeNodes(BinaryTreeNode* pParent, BinaryTreeNode* pLeft, BinaryTreeNode* pRight)
{
if(pParent != NULL)
{
pParent->m_pLeft = pLeft;
pParent->m_pRight = pRight;
}
}
void PrintTreeNode(BinaryTreeNode* pNode)
{
if(pNode != NULL)
{
printf("value of this node is: %d
", pNode->m_nValue);
if(pNode->m_pLeft != NULL)
printf("value of its left child is: %d.
", pNode->m_pLeft->m_nValue);
else
printf("left child is null.
");
if(pNode->m_pRight != NULL)
printf("value of its right child is: %d.
", pNode->m_pRight->m_nValue);
else
printf("right child is null.
");
}
else
{
printf("this node is null.
");
}
printf("
");
}
void PrintTree(BinaryTreeNode* pRoot)
{
PrintTreeNode(pRoot);
if(pRoot != NULL)
{
if(pRoot->m_pLeft != NULL)
PrintTree(pRoot->m_pLeft);
if(pRoot->m_pRight != NULL)
PrintTree(pRoot->m_pRight);
}
}
void DestroyTree(BinaryTreeNode* pRoot)
{
if(pRoot != NULL)
{
BinaryTreeNode* pLeft = pRoot->m_pLeft;
BinaryTreeNode* pRight = pRoot->m_pRight;
delete pRoot;
pRoot = NULL;
DestroyTree(pLeft);
DestroyTree(pRight);
}
}
文件 TraverseTree.cpp
#include "BinaryTree.h"
#include <iostream>
#include <stack>
using namespace std;
/* 递归先序遍历 */
void PreOrderTraverseTree(BinaryTreeNode *pRoot)
{
if (pRoot != NULL)
{
cout << pRoot->m_nValue << " ";
PreOrderTraverseTree(pRoot->m_pLeft);
PreOrderTraverseTree(pRoot->m_pRight);
}
}
/* 非递归先序遍历 */
void PreOrderTraverseTreeNoRecursive(BinaryTreeNode *pRoot)
{
if (pRoot == NULL)
{
return;
}
stack<BinaryTreeNode *> nodes;
nodes.push(pRoot);
while (!nodes.empty())
{
BinaryTreeNode *pNode = nodes.top();
nodes.pop();
cout << pNode->m_nValue << " ";
if (pNode->m_pRight != NULL)
{
nodes.push(pNode->m_pRight);
}
if (pNode->m_pLeft != NULL)
{
nodes.push(pNode->m_pLeft);
}
}
}
/* 递归中序遍历 */
void InOrderTraverseTree(BinaryTreeNode *pRoot)
{
if (pRoot != NULL)
{
InOrderTraverseTree(pRoot->m_pLeft);
cout << pRoot->m_nValue << " ";
InOrderTraverseTree(pRoot->m_pRight);
}
}
/* 非递归中序遍历 */
void InOrderTraverseTreeNoRecursive(BinaryTreeNode *pRoot)
{
if (pRoot == NULL)
{
return;
}
stack<BinaryTreeNode *> nodes;
BinaryTreeNode *pCurrent = pRoot;
while (!nodes.empty() || pCurrent != NULL)
{
if (pCurrent != NULL)
{
nodes.push(pCurrent);
pCurrent = pCurrent->m_pLeft;
}
else
{
pCurrent = nodes.top();
nodes.pop();
cout << pCurrent->m_nValue << " ";
pCurrent = pCurrent->m_pRight;
}
}
}
/* 递归后序遍历 */
void PostOrderTraverseTree(BinaryTreeNode *pRoot)
{
if (pRoot != NULL)
{
PostOrderTraverseTree(pRoot->m_pLeft);
PostOrderTraverseTree(pRoot->m_pRight);
cout << pRoot->m_nValue << " ";
}
}
/* 非递归后序遍历 */
void PostOrderTraverseTreeNoRecursive(BinaryTreeNode *pRoot)
{
if (pRoot == NULL)
{
return;
}
stack<BinaryTreeNode *> traverseNodes;
stack<BinaryTreeNode *> nodes;
traverseNodes.push(pRoot);
while (!traverseNodes.empty())
{
BinaryTreeNode *pNode = traverseNodes.top();
traverseNodes.pop();
if (pNode->m_pLeft != NULL)
{
traverseNodes.push(pNode->m_pLeft);
}
if (pNode->m_pRight != NULL)
{
traverseNodes.push(pNode->m_pRight);
}
nodes.push(pNode);
}
while (!nodes.empty())
{
BinaryTreeNode *pNode = nodes.top();
nodes.pop();
cout << pNode->m_nValue << " ";
}
}
void Test(const char *testName, BinaryTreeNode *pRoot)
{
if (testName != NULL)
{
cout << testName << " : " << endl;
}
cout << "递归先序遍历: " ;
PreOrderTraverseTree(pRoot);
cout << endl;
cout << "非递归先序遍历:";
PreOrderTraverseTreeNoRecursive(pRoot);
cout << endl;
cout << "递归中序遍历: ";
InOrderTraverseTree(pRoot);
cout << endl;
cout << "非递归中序遍历:";
InOrderTraverseTreeNoRecursive(pRoot);
cout << endl;
cout << "递归后序遍历: ";
PostOrderTraverseTree(pRoot);
cout << endl;
cout << "非递归后序遍历:";
PostOrderTraverseTreeNoRecursive(pRoot);
cout << endl;
}
void Test1()
{
BinaryTreeNode *pNode1 = CreateBinaryTreeNode(1);
BinaryTreeNode *pNode2 = CreateBinaryTreeNode(2);
BinaryTreeNode *pNode3 = CreateBinaryTreeNode(3);
BinaryTreeNode *pNode4 = CreateBinaryTreeNode(4);
BinaryTreeNode *pNode5 = CreateBinaryTreeNode(5);
BinaryTreeNode *pNode6 = CreateBinaryTreeNode(6);
ConnectTreeNodes(pNode1, pNode2, pNode3);
ConnectTreeNodes(pNode2, pNode4, pNode5);
ConnectTreeNodes(pNode3, pNode6, NULL);
Test("Test1", pNode1);
DestroyTree(pNode1);
}
void Test2()
{
BinaryTreeNode *pNode1 = CreateBinaryTreeNode(1);
BinaryTreeNode *pNode2 = CreateBinaryTreeNode(2);
BinaryTreeNode *pNode3 = CreateBinaryTreeNode(3);
BinaryTreeNode *pNode4 = CreateBinaryTreeNode(4);
BinaryTreeNode *pNode5 = CreateBinaryTreeNode(5);
ConnectTreeNodes(pNode1, pNode2, NULL);
ConnectTreeNodes(pNode2, pNode3, NULL);
ConnectTreeNodes(pNode3, pNode4, NULL);
ConnectTreeNodes(pNode4, pNode5, NULL);
Test("Test2", pNode1);
DestroyTree(pNode1);
}
void Test3()
{
BinaryTreeNode *pNode1 = CreateBinaryTreeNode(1);
BinaryTreeNode *pNode2 = CreateBinaryTreeNode(2);
BinaryTreeNode *pNode3 = CreateBinaryTreeNode(3);
BinaryTreeNode *pNode4 = CreateBinaryTreeNode(4);
BinaryTreeNode *pNode5 = CreateBinaryTreeNode(5);
ConnectTreeNodes(pNode1, NULL, pNode2);
ConnectTreeNodes(pNode2, NULL, pNode3);
ConnectTreeNodes(pNode3, NULL, pNode4);
ConnectTreeNodes(pNode4, NULL, pNode5);
Test("Test3", pNode1);
DestroyTree(pNode1);
}
void Test4()
{
BinaryTreeNode *pNode1 = CreateBinaryTreeNode(1);
Test("Test4", pNode1);
DestroyTree(pNode1);
}
void Test5()
{
Test("Test5", NULL);
}
int main()
{
Test1();
Test2();
Test3();
Test4();
Test5();
}
测试结果:
