언어 자료구조 알고리즘/디딤돌 정렬 알고리즘 (C언어)

4.3 삽입 정렬 알고리즘 소스 코드

언제나휴일 2016. 11. 25. 16:18
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4.3 삽입 정렬 알고리즘 소스 코드


 다음은 삽입 정렬 알고리즘과 이를 테스트 하는 소스 코드 내용입니다.

//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;

}

 

//Program.c

#include "common.h"

#include "Book.h"

typedef void *Element;

typedef int (*Compare)(Element , Element);              

 

void insertion_sort(Element *base, int n, Compare compare)//삽입 정렬(base:배열의 시작 주소, n: 원소 개수, compare:비교 논리)

{

    int i = 0, j=0;

    Element temp;

    for(i=1; i<n; i++)

    {

        for(j=i; j>0; j--)

        {

            if(compare(base[j-1],base[j])<0)

            {                 

                temp = base [j-1];

                base[j-1] = base [j];

                base[j] = temp;

            }

            else

            {

                break;

            }

        }

    }

}

#define MAX_BOOK 10000

Book *books[MAX_BOOK]={0};

void SimulationInit()

{

    char title[MAX_TIT_LEN+1]="";

    char author[MAX_AUT_LEN+1]="";

    int i = 0;

    for(i=0; i<MAX_BOOK; ++i)

    {

        sprintf(title,"%010d",rand());

        sprintf(author,"%010d",rand());

        books[i] = New_Book(title,author,rand());

    }

}

int CompareByTitle(Book *book1,Book *book2)

{

    return Book_CompareTitle(book1,book2->title);

}

int CompareByNum(Book *book1,Book *book2)

{

    return Book_CompareNum(book1,book2->num);

}

void ListBook(int n)

{

    int i = 0;

    for(i=0; i<n; ++i)

    {

        Book_View(books[i]);

    }

}

void Simulation1()

{

    insertion_sort(books,10,CompareByTitle);

    printf("--------제목순-------\n");

    ListBook(10);

    insertion_sort(books,10,CompareByNum);

    printf("--------번호순-------\n");

    ListBook(10);

}

void Simulation2()

{

    clock_t st,et;

    st = clock();

    insertion_sort(books,MAX_BOOK/10,CompareByTitle);

    et=clock();

    printf("%d개 정렬에 걸린 시간:%d\n",MAX_BOOK/10,et-st);

    st = clock();

    insertion_sort(books,MAX_BOOK,CompareByTitle);

    et=clock();

    printf("%d개 정렬에 걸린 시간:%d\n",MAX_BOOK,et-st);

}

void SimulationClear()

{

    int i = 0;

    for(i=0; i<MAX_BOOK; ++i)

    {

        Delete_Book(books[i]);

    }

}

int main()

{

    SimulationInit();

    Simulation1();

    Simulation2();

    SimulationClear();

    return 0;

}

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