本題要求實現給定二叉搜索樹的5種常用操作。

函數接口定義：

BinTree Insert( BinTree BST, ElementType X ); BinTree Delete( BinTree BST, ElementType X ); Position Find( BinTree BST, ElementType X ); Position FindMin( BinTree BST ); Position FindMax( BinTree BST );

其中BinTree結構定義如下：

typedef struct TNode *Position; typedef Position BinTree; struct TNode{ElementType Data;BinTree Left;BinTree Right; };

• 函數Insert將X插入二叉搜索樹BST并返回結果樹的根結點指針；
• 函數Delete將X從二叉搜索樹BST中刪除，并返回結果樹的根結點指針；如果X不在樹中，則打印一行Not Found并返回原樹的根結點指針；
• 函數Find在二叉搜索樹BST中找到X，返回該結點的指針；如果找不到則返回空指針；
• 函數FindMin返回二叉搜索樹BST中最小元結點的指針；
• 函數FindMax返回二叉搜索樹BST中最大元結點的指針。

裁判測試程序樣例：

#include <stdio.h> #include <stdlib.h>typedef int ElementType; typedef struct TNode *Position; typedef Position BinTree; struct TNode{ElementType Data;BinTree Left;BinTree Right; };void PreorderTraversal( BinTree BT ); /* 先序遍歷，由裁判實現，細節不表 */ void InorderTraversal( BinTree BT ); /* 中序遍歷，由裁判實現，細節不表 */BinTree Insert( BinTree BST, ElementType X ); BinTree Delete( BinTree BST, ElementType X ); Position Find( BinTree BST, ElementType X ); Position FindMin( BinTree BST ); Position FindMax( BinTree BST );int main() {BinTree BST, MinP, MaxP, Tmp;ElementType X;int N, i;BST = NULL;scanf("%d", &N);for ( i=0; i<N; i++ ) {scanf("%d", &X);BST = Insert(BST, X);}printf("Preorder:"); PreorderTraversal(BST); printf("\n");MinP = FindMin(BST);MaxP = FindMax(BST);scanf("%d", &N);for( i=0; i<N; i++ ) {scanf("%d", &X);Tmp = Find(BST, X);if (Tmp == NULL) printf("%d is not found\n", X);else {printf("%d is found\n", Tmp->Data);if (Tmp==MinP) printf("%d is the smallest key\n", Tmp->Data);if (Tmp==MaxP) printf("%d is the largest key\n", Tmp->Data);}}scanf("%d", &N);for( i=0; i<N; i++ ) {scanf("%d", &X);BST = Delete(BST, X);}printf("Inorder:"); InorderTraversal(BST); printf("\n");return 0; } /* 你的代碼將被嵌在這里 */

輸入樣例：

10 5 8 6 2 4 1 0 10 9 7 5 6 3 10 0 5 5 5 7 0 10 3

輸出樣例：

Preorder: 5 2 1 0 4 8 6 7 10 9 6 is found 3 is not found 10 is found 10 is the largest key 0 is found 0 is the smallest key 5 is found Not Found Inorder: 1 2 4 6 8 9 #include<stdio.h> #include<stdlib.h>typedef int ElementType; typedef struct TNode* Position; typedef Position BinTree;struct TNode{ElementType Data;BinTree Left;BinTree Right; };void PreorderTraversal(BinTree BT); void InorderTraversal(BinTree BT);Position FindMin(BinTree BST); Position FindMax(BinTree BST); Position Find(BinTree BST,ElementType X);BinTree Insert(BinTree BST, ElementType X); BinTree Delete(BinTree BST, ElementType X);int main(){BinTree BST,MinP,MaxP,Tmp;ElementType X;int N,i;BST = NULL;scanf("%d",&N);for(i = 0; i < N; i++){scanf("%d",&X);BST = Insert(BST,X);}printf("PreOrder:");PreorderTraversal(BST);printf("\n");MinP = FindMin(BST);MaxP = FindMax(BST); printf("%d %d\n",MinP->Data,MaxP->Data);scanf("%d",&N);for(i = 0; i < N; i++){scanf("%d",&X);Tmp = Find(BST,X);if(Tmp == NULL) printf("%d is not found\n",X);else{printf("%d is found\n",X);if(Tmp == MinP) printf("%d is the smallest key\n",Tmp->Data);if(Tmp == MaxP) printf("%d is the largest key\n",Tmp->Data);}}scanf("%d",&N);for(i = 0; i < N; i++){scanf("%d",&X);BST = Delete(BST,X);}printf("InorderTraver:");InorderTraversal(BST);return 0; }BinTree Insert(BinTree BST, ElementType X){if(!BST){BST = (BinTree)malloc(sizeof(struct TNode));BST->Left = NULL;BST->Right = NULL;BST->Data = X;}else if(X > BST->Data){BST->Right = Insert(BST->Right,X);}else if(X < BST->Data){BST->Left = Insert(BST->Left,X);}return BST; }void PreorderTraversal(BinTree BT){if(BT){printf("%d ",BT->Data);PreorderTraversal(BT->Left);PreorderTraversal(BT->Right);}else return; }Position FindMin(BinTree BST) {if (BST) {while (BST->Left != NULL) {BST = BST->Left;}}return BST; } Position FindMax(BinTree BST) {if (BST) {while (BST->Right != NULL) {BST = BST->Right;}}return BST; } Position Find(BinTree BST, ElementType X) {if (!BST)return NULL;if (X < BST->Data) {return Find(BST->Left, X);}else if (X > BST->Data) {return Find(BST->Right, X);}elsereturn BST; }BinTree Delete(BinTree BST, ElementType X){BinTree p;if(!BST){printf("Not Found\n");return BST;}if(X < BST->Data) BST->Left = Delete(BST->Left,X);else if(X > BST->Data) BST->Right = Delete(BST->Right,X);else{if(BST->Left&&BST->Right){p = FindMax(BST->Left);BST->Data = p->Data;BST->Left = Delete(BST->Left,BST->Data);}else{p = BST;if(!BST->Left) BST = BST->Right;else if(!BST->Right) BST = BST->Left;free(p);}} return BST; }void InorderTraversal(BinTree BT){if(BT){InorderTraversal(BT->Left);printf("%d ",BT->Data);InorderTraversal(BT->Right);}else return; }

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轉載于:https://www.cnblogs.com/wanghao-boke/p/10627830.html

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