二叉树C语言

几乎报价http://blog.csdn.net/hopeyouknow/article/details/6740616。为了这细微的地方进行了修改。他能够执行。

bitree.h

typedef int Item;
typedef struct node
{
	struct node *lchild;
	struct node *rchild;
	Item	data;
}BiTNode, *BiTree;

BiTree InitBiTree(BiTNode *root);

BiTNode *MakeNode(Item item, BiTNode *lchild, BiTNode *rchild);

void FreeNode(BiTNode *pnode);

void ClearBiTree(BiTree tree);

void DestroyBiTree(BiTree tree);

int IsEmpty(BiTree tree);

int GetDepth(BiTree tree);

BiTree GetRoot(BiTree tree);

Item GetItem(BiTNode *pnode);

void SetItem(BiTNode *pnode, Item item);

BiTree SetLChild(BiTree parent, BiTree lchild);

BiTree SetRChild(BiTree parent, BiTree rchild);

BiTree GetLchild(BiTree tree);

BiTree GetRchild(BiTree tree);

BiTree InsertChild(BiTree parent, int lr, BiTree child);

void DeleteChild(BiTree parent, int lr);

void PreOrderTraverse(BiTree tree, void (*visit)());

void InOrderTraverse(BiTree tree, void (*visit)());

void PostOrderTraverse(BiTree tree, void (*visit)());

bitree.c

#include "bitree.h"
#include <malloc.h>
#include <stdlib.h>

BiTree InitBiTree(BiTNode *root)
{
	BiTree tree = root;
	return tree;
}

BiTNode *MakeNode(Item item, BiTNode *lchild, BiTNode *rchild)
{
	BiTNode *pnode = (BiTNode *)malloc(sizeof(BiTNode));
	if(pnode){
		pnode->data = item;
		pnode->lchild = lchild;	
		pnode->rchild = rchild;	
	}
	return pnode;
}

void FreeNode(BiTNode *pnode)
{
	if(pnode != NULL)
			free(pnode);
}

void ClearBiTree(BiTree tree)
{
	BiTNode *pnode = tree;
	if(pnode->lchild != NULL)
			ClearBiTree(pnode->lchild);

	if(pnode->rchild != NULL)
			ClearBiTree(pnode->rchild);

	FreeNode(pnode);
}

void DestroyBiTree(BiTree tree)
{
	if(tree)
			ClearBiTree(tree);
}

IsEmpty(BiTree tree)
{
	if(tree == NULL)
			return 0;
	else
			return 1;
}

int GetDepth(BiTree tree)
{
	int cd, ld, rd;
	cd = ld = rd = 0;
	if(tree){
		ld = GetDepth(tree->lchild);	
		rd = GetDepth(tree->rchild);	
		cd = (ld > rd ?

ld : rd); return cd+1; }else return 0; } BiTree GetRoor(BiTree tree) { return tree; } Item GetItem(BiTNode *pnode) { return pnode->data; } void SetItem(BiTNode *pnode, Item item) { pnode->data = item; } BiTree SetLChild(BiTree parent, BiTree lchild) { parent->lchild = lchild; return lchild; } BiTree SetRChild(BiTree parent, BiTree rchild) { parent->rchild = rchild; return rchild; } BiTree GetLchild(BiTree tree) { if(tree) return tree->lchild; return NULL; } BiTree GetRchild(BiTree tree) { if(tree) return tree->rchild; return NULL; } BiTree InsertChild(BiTree parent, int lr, BiTree child) { if(parent){ if(lr == 0 && parent->lchild == NULL){ parent->lchild = child; return child; } if(lr == 1 && parent->lchild == NULL){ parent->rchild = child; return child; } } return NULL; } void DeleteChild(BiTree parent, int lr) { if(parent){ if(lr == 0 && parent->lchild != NULL){ parent->lchild = NULL; FreeNode(parent->lchild); } if(lr == 1 && parent->rchild != NULL){ parent->rchild = NULL; FreeNode(parent->rchild); } } } void PreOrderTraverse(BiTree tree, void (*visit)()) { BiTNode *pnode = tree; if(pnode){ visit(pnode->data); PreOrderTraverse(pnode->lchild, visit); PreOrderTraverse(pnode->rchild, visit); } } void InOrderTraverse(BiTree tree, void (*visit)()) { BiTNode *pnode = tree; if(pnode){ InOrderTraverse(pnode->lchild, visit); visit(pnode->data); InOrderTraverse(pnode->lchild, visit); } } void PostOrderTraverse(BiTree tree, void (*visit)()) { BiTNode *pnode = tree; if(pnode){ PostOrderTraverse(pnode->lchild, visit); PostOrderTraverse(pnode->lchild, visit); visit(pnode->data); } }


test.c

#include "bitree.h"
#include <stdio.h>

void print(Item item)
{
	printf("%d ", item);
}

main()
{
	BiTNode *n1 = MakeNode(10, NULL, NULL);
	BiTNode *n2 = MakeNode(20, NULL, NULL);
	BiTNode *n3 = MakeNode(30, n1, n2);
	BiTNode *n4 = MakeNode(40, NULL, NULL);
	BiTNode *n5 = MakeNode(50, NULL, NULL);
	BiTNode *n6 = MakeNode(60, n4, n5);
	BiTNode *n7 = MakeNode(70, NULL, NULL);

	BiTree tree = InitBiTree(n7);
	SetLChild(tree, n3);
	SetRChild(tree, n6);

	printf("the depth of the tree is %d.\n", GetDepth(tree));

	printf("preorderTraverse:\n");
	PreOrderTraverse(tree, print);
	putchar('\n');

	printf("inorderTraverse:\n");
	InOrderTraverse(tree, print);
	putchar('\n');

	printf("postorderTraverse:\n");
	PostOrderTraverse(tree, print);
	putchar('\n');

	DeleteChild(tree, 1);
	printf("postorderTraverse:\n");
	PostOrderTraverse(tree, print);

	DestroyBiTree(tree);
	if(IsEmpty(tree))
			printf("the tree is empty!\n");

	return 0;

}
编译:gcc test.c bitree.c

执行:./a.out

执行结果:

the depth of the tree is 3.
preorderTraverse:
70 30 10 20 60 40 50 
inorderTraverse:
10 30 10 70 10 30 10 
postorderTraverse:
10 10 30 10 10 30 70 
postorderTraverse:
10 10 30 10 10 30 70 
the tree is empty!

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