代码简介
创建、前序、中序、后序递归遍历二叉树
VS2010编译通过
代码片段
/* 关于非线性的数据结构当然树形结构最重要,而树里面又属二叉树最重要, 所以在后面将列出二叉树的各种使用方法,包括基本的遍历,和我在一些 资料上看到的关于二叉树的面试题型。至于一些很高级的树形结构,如平 衡树,还有线索树等,就暂时不写出来,先完成最基本的,再一点点的加 */ #include <stdio.h> #include <stdlib.h> //typedef void * ElemType; typedef int ElemType; struct BinaryTreeNode { ElemType m_nValue; BinaryTreeNode *m_pLeft; BinaryTreeNode *m_pRight; }; /* 二叉树主要的难点是遍历 基本上所有的算法都是基于二叉树的遍历的 至于创建二叉树就需要在输入的时候把线性的结构转换成非线性的 用输入的方式创建二叉树, */ //将输入独立起来, BinaryTreeNode * CreateTree(BinaryTreeNode *bTree) { int input; scanf("%d",&input); //按先序建立二叉树 if(input == 0) { bTree = NULL; //置为NULL后结束 return bTree; } bTree = (BinaryTreeNode *)malloc(sizeof(BinaryTreeNode)); bTree ->m_nValue = input; bTree->m_pLeft = CreateTree(bTree->m_pLeft); bTree->m_pRight = CreateTree(bTree->m_pRight); return bTree; } //三种递归遍历方法 void Preorder(BinaryTreeNode *bTree) //这个是先序遍历,先根,左子树,右子树 { if(bTree != NULL) { printf("%d ",bTree->m_nValue); Preorder(bTree->m_pLeft); Preorder(bTree->m_pRight); } } void Inorder(BinaryTreeNode *bTree) //中序遍历,左子树,根,右子树 { if(bTree != NULL) { Inorder(bTree->m_pLeft); printf("%d ",bTree ->m_nValue); Inorder(bTree ->m_pRight); }hxyy2013.b2b168.com http://www.wenbing.com/kmhx } void Postorder(BinaryTreeNode *bTree) //后序遍历,左子树,右子树,根 { if(bTree != NULL) { Postorder(bTree->m_pLeft); Postorder(bTree->m_pRight); printf("%d ",bTree ->m_nValue); } } int main() { BinaryTreeNode *bTree; bTree=CreateTree(bTree); printf("先序遍历结果为:\n"); Preorder(bTree); printf("\n"); printf("中序遍历结果为:\n"); Inorder(bTree); printf("\n"); printf("后序序遍历结果为:\n"); Postorder(bTree); printf("\n"); return 0; system("pause"); }
