本文是数据结构基础系列(6):树和二叉树中第5课时树的存储结构的例程。
例: 以孩子-兄弟链作为存储结构,求树的高度
源程序:【说明——函数TreeCreate仅创建了如上图所示的图,不具有通用性。】
#include <stdio.h>
#include <malloc.h>
typedef char ElemType;
typedef struct tnode
{
ElemType data; //节点的值
struct tnode *hp; //指向兄弟
struct tnode *vp; //指向孩子节点
} TSBNode;
int TreeHeight(TSBNode *t);
void TreeCreate(TSBNode *&t);
void TreeDisp(TSBNode *t);
int TreeHeight(TSBNode *t)
{
TSBNode *p;
int m, max = 0;
if(t==NULL)
return(0);
else if(t->vp==NULL)
return(1);
else
{
//求t的子树的最大高度max
p=t->vp;
while(p!=NULL)
{
m=TreeHeight(p);
if(max<m)
max=m;
p=p->hp;
}
return(max+1);
}
}
int main()
{
TSBNode *tree;
TreeCreate(tree);
printf("Height: %d\n", TreeHeight(tree));
TreeDisp(tree);
return 0;
}
void TreeCreate(TSBNode *&t)
{
//本例仅建造说明中特定的树,以支持演示
TSBNode *a, *b, *c, *d, *e, *f, *g;
a = (TSBNode *)malloc(sizeof(TSBNode));
b = (TSBNode *)malloc(sizeof(TSBNode));
c = (TSBNode *)malloc(sizeof(TSBNode));
d = (TSBNode *)malloc(sizeof(TSBNode));
e = (TSBNode *)malloc(sizeof(TSBNode));
f = (TSBNode *)malloc(sizeof(TSBNode));
g = (TSBNode *)malloc(sizeof(TSBNode));
a->data = 'a';
b->data = 'b';
c->data = 'c';
d->data = 'd';
e->data = 'e';
f->data = 'f';
g->data = 'g';
a->vp = b;
a->hp = NULL;
b->vp = d;
b->hp = c;
c->vp = NULL;
c->hp = NULL;
d->vp = NULL;
d->hp = e;
e->vp = g;
e->hp = f;
f->vp = NULL;
f->hp = NULL;
g->vp = NULL;
g->hp = NULL;
t=a; //a作为根
return;
}
void TreeDisp(TSBNode *t)
{
if(t!=NULL)
{
printf("node value: %c\n", t->data);
printf("%c\'s first child --> ", t->data);
TreeDisp(t->hp);
printf("%c\'s brother(its father\'s another child) --> ", t->data);
TreeDisp(t->vp);
}
else
{
printf("NULL\n");
}
}
![[数据结构]-AVL树](https://ucc.alicdn.com/pic/developer-ecology/6v24jawhpy3hi_6852840861db4926b08602d40f80e75a.jpeg?x-oss-process=image/resize,h_160,m_lfit)