第九周——项目一“二叉树算法库”

/*烟台大学计算机学院  文件名称:btree 作者:董玉祥 完成日期: 2017 10 28 问题描述：建立二叉树算法库 */btree.h#ifndef BTREE_H_INCLUDED#define BTREE_H_INCLUDED#define MaxSize 100typedef char ElemType;typedef struct node{    ElemType data;    struct node *lchild;    struct node *rchild;}BTNode;void CreateBTNode(BTNode *&b,char *str);        //由str串创建二叉链BTNode *FindNode(BTNode *b,ElemType x);     //返回data域为x的节点指针BTNode *LchildNode(BTNode *p);      //返回*p节点的左孩子节点指针BTNode *RchildNode(BTNode *p);      //返回*p节点的右孩子节点指针int BTNodeDepth(BTNode *b);     //求二叉树b的深度void DispBTNode(BTNode *b);     //以括号表示法输出二叉树void DestroyBTNode(BTNode *&b);     //销毁二叉树#endif // BTREE_H_INCLUDEDbtree.cpp#include "stdio.h"#include "btree.h"#include "malloc.h"void CreateBTNode(BTNode *&b,char *str)     //由str串创建二叉链{    BTNode *St[MaxSize],*p=NULL;    int top=-1,k,j=0;    char ch;    b=NULL;             //建立的二叉树初始时为空    ch=str[j];    while (ch!='\0')    //str未扫描完时循环    {        switch(ch)        {        case '(':            top++;            St[top]=p;            k=1;            break;      //为左节点        case ')':            top--;            break;        case ',':            k=2;            break;                          //为右节点        default:            p=(BTNode *)malloc(sizeof(BTNode));            p->data=ch;            p->lchild=p->rchild=NULL;            if (b==NULL)                    //p指向二叉树的根节点                b=p;            else                            //已建立二叉树根节点            {                switch(k)                {                case 1:                    St[top]->lchild=p;                    break;                case 2:                    St[top]->rchild=p;                    break;                }            }        }        j++;        ch=str[j];    }}BTNode *FindNode(BTNode *b,ElemType x)  //返回data域为x的节点指针{    BTNode *p;    if (b==NULL)        return NULL;    else if (b->data==x)        return b;    else    {        p=FindNode(b->lchild,x);        if (p!=NULL)            return p;        else            return FindNode(b->rchild,x);    }}BTNode *LchildNode(BTNode *p)     //返回*p节点的左孩子节点指针{    return p->lchild;}BTNode *RchildNode(BTNode *p)      //返回*p节点的右孩子节点指针{    return p->rchild;}int BTNodeDepth(BTNode *b)     //求二叉树b的深度{    int rchilddep,lchilddep;    if(b==NULL)        return 0;    else    {        lchilddep=BTNodeDepth(b->lchild);        rchilddep=BTNodeDepth(b->rchild);        return (rchilddep>lchilddep)?(rchilddep+1):(lchilddep+1);    }}void DispBTNode(BTNode *b)     //以括号表示法输出二叉树{    if(b!=NULL)    {        printf("%c",b->data);        if(b->rchild!=NULL||b->lchild!=NULL)            printf("(");        DispBTNode(b->lchild);        printf(",");        if(b->rchild!=NULL)            DispBTNode(b->rchild);        printf(")");    }}void DestroyBTNode(BTNode *&b)   //销毁二叉树{    if(b!=NULL)    {        DestroyBTNode(b->lchild);        DestroyBTNode(b->rchild);        free(b);    }}main.cpp#include "stdio.h"#include "btree.h"int main(){    BTNode *b,*p,*lp,*rp;;    printf("  (1)创建二叉树:");    CreateBTNode(b,"A(B(D,E(H(J,K(L,M(,N))))),C(F,G(,I)))");    printf("\n");    printf("  (2)输出二叉树:");    DispBTNode(b);    printf("\n");    printf("  (3)查找H节点:");    p=FindNode(b,'H');    if(p!=NULL)    {        lp=LchildNode(p);        if (lp!=NULL)            printf("左孩子为%c ",lp->data);        else            printf("无左孩子 ");        rp=RchildNode(p);        if (rp!=NULL)            printf("右孩子为%c",rp->data);        else            printf("无右孩子 ");    }    else        printf(" 未找到！");    printf("\n");    printf("  (4)二叉树b的深度:%d\n",BTNodeDepth(b));    printf("  (5)释放二叉树b\n");    DestroyBTNode(b);    return 0;}