代码内容包括:二叉树的遍历(先序、中序、后序) 二叉树的创建(先序) 以及二叉树深度和叶子数目的求法
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#include <stdio.h>
#include <stdlib.h>
typedef char dataType;
typedef struct node{
dataType data;
struct node *lchild,*rchild;
}BinTree;
/*---创建二叉树---*/
BinTree *CreateBinTree()
{/*先序建立一个二叉树链表*/
BinTree *bt = NULL;
char ch;
ch = getchar();
if(ch!='#')
{
bt = (BinTree *)malloc(sizeof(BinTree));
bt->data = ch;
bt->lchild = CreateBinTree();
bt->rchild = CreateBinTree();
}
return bt;
}
void endprintfBinTree(BinTree *bt)
{
if(bt != NULL)
{/*---后序二叉树遍历---*/
endprintfBinTree(bt->lchild);
endprintfBinTree(bt->rchild);
printf("%c",bt->data);
}
}
void firstprintfBinTree(BinTree *bt)
{
if(bt != NULL)
{/*---先序二叉树遍历---*/
printf("%c",bt->data);
firstprintfBinTree(bt->lchild);
firstprintfBinTree(bt->rchild);
}
}
void middelprintfBinTree(BinTree *bt)
{
if(bt != NULL)
{/*---中序二叉树遍历---*/
middelprintfBinTree(bt->lchild);
printf("%c",bt->data);
middelprintfBinTree(bt->rchild);
}
}
/*---按中序遍历的方法求叶子节点的总数---*/
void CountLeaf(BinTree *t,int* count)
{
if(t)
{
if(!(t->lchild)&&!(t->rchild))
{
(*count)++;
}
CountLeaf(t->lchild,count);
CountLeaf(t->rchild,count);
}
}
/*---求二叉树深度---*/
int Depth(BinTree *t)
{
int h1,hr;
if(!t) return 0;
else
{
h1 = Depth(t->lchild);
hr = Depth(t->rchild);
if(h1>=hr) return h1+1;
else return hr+1;
}
}
int main()
{
BinTree *bt;
int a = 0;
bt = CreateBinTree();
firstprintfBinTree(bt);
middelprintfBinTree(bt);
endprintfBinTree(bt);
CountLeaf(bt,&a);
printf("%d",a);
printf("
%d",Depth(bt));
}