다음은 C언어로 작성한 이진 탐색 트리 소스 코드와 이를 이용하여 도서 정보 추가, 검색, 삭제 기능 등을 호출하여 잘 동작하는지 확인하는 소스 코드입니다.
//common.h #pragma once //헤더 파일을 한 번만 포함해서 컴파일 #include <stdio.h> #include <stdlib.h> #include <conio.h> #include <string.h> #include <malloc.h> #include <memory.h> #include <time.h> #pragma warning(disable:4996) //4996컴파일 경고 메시지 출력 해제
//Book.h #pragma once #include "common.h" #define MAX_TIT_LEN 200 #define MAX_AUT_LEN 20 typedef struct _Book Book; struct _Book { char title[MAX_TIT_LEN+1]; char author[MAX_AUT_LEN+1]; int num; }; Book *New_Book(const char *title,const char *author,int num); void Delete_Book(Book *book); void Book_View(Book *book); int Book_CompareTitle(Book *book,const char *title); int Book_CompareAuthor(Book *book,const char *author); int Book_CompareNum(Book *book,int num);
//Book.c #include "Book.h" void Book_Book(Book *book,const char *title,const char *author,int num); Book *New_Book(const char *title,const char *author,int num) { Book *book = 0; book = (Book *)malloc(sizeof(Book)); Book_Book(book,title,author,num); return book; } void Book_Book(Book *book,const char *title,const char *author,int num) { memset(book,0,sizeof(Book)); strncpy(book->title,title,MAX_TIT_LEN); strncpy(book->author,author,MAX_AUT_LEN); book->num = num; } void Delete_Book(Book *book) { free(book); } void Book_View(Book *book) { printf("<%010d>:<%s>\n",book->num,book->title); printf("\t 저자:%s\n",book->author); } int Book_CompareTitle(Book *book,const char *title) { return strcmp(book->title,title); } int Book_CompareAuthor(Book *book,const char *author) { return strcmp(book->author,author); } int Book_CompareNum(Book *book,int num) { return book->num-num; }
//BinSearchTree.h #pragma once #include "Book.h" typedef struct _Node Node; struct _Node { Book *book; Node *lch; Node *rch; Node *pa; }; Node *New_Node(Book *data); typedef struct _BinSearchTree BST; struct _BinSearchTree { Node *root; int count; }; BST *New_BST(); void Delete_BST(BST *bst); int BST_Insert(BST *bst,Book *book); int BST_Remove(BST *bst, int num); Book *BST_Find(BST *bst, int num); void BST_List(BST *bst);
//BinSearchTree.c #include "BinSearchTree.h" #include <malloc.h> Node *New_Node(Book *data) { Node *node = 0; node = (Node *)malloc(sizeof(Node)); node->book = data; node->lch = node->rch = node->pa = 0; return node; } BST *New_BST() { BST *bst = 0; bst = (BST *)malloc(sizeof(BST)); bst->root = 0; bst->count = 0; return bst; } void BST_PostOrder(Node *sr); void Delete_BST(BST *bst) { BST_PostOrder(bst->root); free(bst); } void BST_PostOrder(Node *sr) { if(sr) { BST_PostOrder(sr->lch); BST_PostOrder(sr->rch); Delete_Book(sr->book); free(sr); } } Node *BST_FindSeat(Node *sr,int num); int BST_Insert(BST *bst,Book *book) { Node *parent = 0; parent = BST_FindSeat(bst->root,book->num); if(parent) { Node *node = 0; int gap = parent->book->num - book->num; if( gap == 0) { return 0; } node = New_Node(book); node->pa = parent; if(gap>0) { parent->lch = node; } else { parent->rch = node; } } else { bst->root = New_Node(book); } bst->count++; return 1; } Node *BST_FindSeat(Node *sr,int num) { int gap = 0; if(sr==0) { return 0; } gap = sr->book->num - num; if(gap == 0) { return sr; } if(gap>0) { if(sr->lch) { return BST_FindSeat(sr->lch,num); } return sr; } if(sr->rch) { return BST_FindSeat(sr->rch,num); } return sr; } void BST_Disconnect(BST *bst,Node *node); int BST_Remove(BST *bst, int num) { Node *node = 0; node = BST_FindSeat(bst->root,num); if(node) { if(node->book->num == num) { BST_Disconnect(bst,node); free(node); bst->count--; return 1; } } return 0; } Node *BST_Change(Node *node); void BST_Disconnect(BST *bst,Node *node) { Node *pa=0; Node *ch=0; if(node->lch && node->rch) { node = BST_Change(node); } pa = node->pa; (ch = node->lch)||(ch = node->rch); if(pa) { ch->pa = pa; } else { bst->root = ch; } if(ch) { if(pa->lch == node) { pa->lch = ch; } else { pa->rch = ch; } } } Node *BST_Change(Node *node) { Node *temp = node; while(temp->rch) { temp = temp->lch; } node->book = temp->book; return temp; } Book *BST_Find(BST *bst, int num) { Node *node = 0; node = BST_FindSeat(bst->root,num); if(node) { if(node->book->num == num) { return node->book; } } return 0; } void BST_Inorder(Node *sr); void BST_List(BST *bst) { printf("보관 개수:%d\n",bst->count); BST_Inorder(bst->root); } void BST_Inorder(Node *sr) { if(sr) { BST_Inorder(sr->lch); Book_View(sr->book); BST_Inorder(sr->rch); } }
//Program.c #include "BinSearchTree.h" int main() { Book *book = 0; BST *bst = New_BST(); BST_Insert(bst,New_Book("C언어","홍길동",10)); BST_Insert(bst,New_Book("C++","홍길동",8)); BST_Insert(bst,New_Book("자료구조","홍길동",7)); BST_Insert(bst,New_Book("알고리즘","홍길동",12)); BST_Insert(bst,New_Book("디자인패턴","홍길동",5)); BST_Insert(bst,New_Book("소켓통신","홍길동",4)); BST_List(bst); book = BST_Find(bst,5); if(book) { printf("검색 성공\n"); Book_View(book); } else { printf("검색 실패\n"); } BST_Remove(bst,5); BST_List(bst); Delete_BST(bst); return 0; }