二叉树构造算法的验证

<p>头文件和功能函数与上周博文相同。</p><p>先序序列与中序序列构造二叉树~主函数：</p>

#include "btree.h"BTNode *CreateBT1(char *pre,char *in,int n)//pre存放先序序列,in存放中序序列,n为二叉树结点个数,//本算法执行后返回构造的二叉链的根结点指针{    BTNode *s;    char *p;    int k;    if (n<=0) return NULL;    s=(BTNode *)malloc(sizeof(BTNode));         s->data=*pre;    for (p=in; p<in+n; p++)                         if (*p==*pre)                                   break;                              k=p-in;                                     s->lchild=CreateBT1(pre+1,in,k);            s->rchild=CreateBT1(pre+k+1,p+1,n-k-1);     return s;}int main(){    ElemType pre[]="ABDGCEF",in[]="DGBAECF";    BTNode *b1;    b1=CreateBT1(pre,in,7);    printf("b1:");    DispBTNode(b1);    printf("\n");    return 0;}

中序序列与后序序列构造二叉树：

#include "btree.h"BTNode *CreateBT2(char *post,char *in,int n)//post存放后序序列,in存放中序序列,n为二叉树结点个数,//本算法执行后返回构造的二叉链的根结点指针{    BTNode *s;    char r,*p;    int k;    if (n<=0) return NULL;    r=*(post+n-1);                          //根结点值    s=(BTNode *)malloc(sizeof(BTNode));     //创建二叉树结点*s    s->data=r;    for (p=in; p<in+n; p++)                 //在in中查找根结点        if (*p==r)            break;    k=p-in;                                 //k为根结点在in中的下标    s->lchild=CreateBT2(post,in,k);         //递归构造左子树    s->rchild=CreateBT2(post+k,p+1,n-k-1);  //递归构造右子树    return s;}int main(){    ElemType in[]="DGBAECF",post[]="GDBEFCA";    BTNode *b2;    b2=CreateBT2(post,in,7);    printf("b2:");    DispBTNode(b2);    printf("\n");    return 0;}