实验任务一:
// 文件读写操作:格式化读、写文本文件 #include <stdio.h> #define N 80 #define M 100 typedef struct { char name[N]; // 书名 char author[N]; // 作者 } Book; void write(); void read(); int main() { printf("测试1: 把图书信息写入文本文件\n"); write(); printf("\n测试2: 从文本文件读取图书信息, 打印输出到屏幕\n"); read(); return 0; } void write() { Book x[] = { {"《雕塑家》", "斯科特.麦克劳德"}, {"《灯塔》", "克里斯多夫.夏布特"}, {"《人的局限性》", "塞缪尔.约翰生"}, {"《永不停步:玛格丽特.阿特伍德传》", "罗斯玛丽.沙利文"}, {"《大地之上》", "罗欣顿·米斯特里"}, {"《上学记》", "何兆武"}, {"《命运》", "蔡崇达"} }; int n, i; FILE *fp; // 计算数组x中元素个数 n = sizeof(x) / sizeof(x[0]); // 以写的方式打开文本文件data1.txt fp = fopen("data1.txt", "w"); // 如果打开文件失败,输出提示信息并返回 if(fp == NULL) { printf("fail to open file to write\n"); return; } // 将结构体数组x中的图书信息格式化写到fp指向的文件data1.txt for(i = 0; i < n; ++i) fprintf(fp, "%-40s %-20s\n", x[i].name, x[i].author); fclose(fp); } void read() { Book x[M]; int i, n; FILE *fp; // 以读的方式打开文本文件data1.txt fp = fopen("data1.txt", "r"); // 如果打开文件失败,输出提示信息并返回 if(fp == NULL) { printf("fail to open file to read\n"); return; } // 从文件中读取图书信息,保存到结构体数组x中 i = 0; while(fscanf(fp, "%s%s", x[i].name, x[i].author) != EOF) ++i; // 将图书信息打印输出到屏幕上 n = i; for(i = 0; i < n; ++i) printf("%d. %-40s%-20s\n", i+1, x[i].name, x[i].author); fclose(fp); }
实验结果:
实验任务二:
// 文件读写操作:以数据块方式读、写二进制文件 #include <stdio.h> #define N 80 #define M 100 typedef struct { char name[N]; // 书名 char author[N]; // 作者 } Book; void write(); void read(); int main() { printf("测试1: 把图书信息以数据块方式写入二进制文件\n"); write(); printf("\n测试2: 从二进制文件读取图书信息, 打印输出到屏幕\n"); read(); return 0; } void write() { Book x[] = { {"《雕塑家》", "斯科特.麦克劳德"}, {"《灯塔》", "克里斯多夫.夏布特"}, {"《人的局限性》", "塞缪尔.约翰生"}, {"《永不停步:玛格丽特.阿特伍德传》", "罗斯玛丽.沙利文"}, {"《大地之上》", "罗欣顿·米斯特里"}, {"《上学记》", "何兆武"}, {"《命运》", "蔡崇达"} }; int n, i; FILE *fp; // 计算数组x中元素个数 n = sizeof(x) / sizeof(x[0]); // 以写的方式打开二进制文件data2.dat fp = fopen("data2.dat", "wb"); // 如果打开文件失败,输出提示信息并返回 if(fp == NULL) { printf("fail to open file to write\n"); return; } // 将结构体数组x中的图书信息以数据块方式写入二进制文件data2.dat fwrite(x, sizeof(Book), n, fp); fclose(fp); } void read() { Book x[M]; int i, n; FILE *fp; // 以读的方式打开二进制文件data2.dat fp = fopen("data2.dat", "rb"); // 如果打开文件失败,输出提示信息并返回 if(fp == NULL) { printf("fail to open file to read\n"); return; } // 从二进制文件data2.dat以数据块方式读取图书信息存储到结构体数组x i = 0; while(fread(&x[i], sizeof(Book), 1, fp) == 1) ++i; // 在屏幕上打印输出 n = i; for(i = 0; i < n; ++i) printf("%d. %-40s%-20s\n", i+1, x[i].name, x[i].author); fclose(fp); }
结果:
实验任务三:
// 文件读写操作:以字符、字符串形式读、写 #include <stdio.h> #define N 100 #define M 80 void write(); void read_str(); void read_char(); int main() { printf("测试1: 把一组字符信息以字符串方式写入文本文件\n"); write(); printf("\n测试2: 从文件以字符串方式读取, 输出到屏幕\n"); read_str(); printf("\n测试3: 从文件以单个字符方式读取, 输出到屏幕\n"); read_char(); return 0; } void write() { char *ptr[] = { "Working\'s Blues", "Everything Will Flow", "Streets of London", "Perfect Day", "Philadelphia"}; int i, n; FILE *fp; fp = fopen("data3.txt", "w"); if(fp == NULL) { printf("fail to open file to write\n"); return; } n = sizeof(ptr)/sizeof(ptr[0]); for(i = 0; i < n; ++i) { fputs(ptr[i], fp); fputs("\n", fp); } fclose(fp); } void read_str() { char songs[N][M]; int i, n; FILE *fp; fp = fopen("data3.txt", "r"); if(fp == NULL) { printf("fail to open file to read\n"); return; } i = 0; while(i < N && (fgets(songs[i], M, fp) != NULL)) ++i; n = i; for(i = 0; i < n; ++i) printf("%d. %s", i+1, songs[i]); fclose(fp); } void read_char() { int ch; FILE *fp; fp = fopen("data3.txt", "r"); if(fp == NULL) { printf("fail to open file to read\n"); return; } while((ch = fgetc(fp)) != EOF) putchar(ch); fclose(fp); }
结果:
问题一:这里的\是转义字符,用于将‘转换为字符,而不是c的语法
问题二:i<N,防止songs数组行下标越界,避免数据溢出
实验任务四:
#include<stdio.h> int main(){ FILE *fp; int count=0,row=0; fp = fopen("data4.txt", "r");
if(fp==NULL){
printf("fail to open file");
return;
}
int ch; while((ch=fgetc(fp))!=EOF){ if(ch=='\n'){ row++; } if(ch!=' '&&ch!='\n'){ count++; } } if(row>0||count>0){ row++; } printf("data4.txt统计结果:\n行数:%d\n字符数(不计空白符):%d\n", row, count); return 0; }
结果:
实验任务五:
#include <stdio.h> #include <string.h> #define N 10 typedef struct { long id; // 准考证号 char name[20]; // 姓名 float objective; // 客观题得分 float subjective; // 操作题得分 float sum; // 总分 char result[10]; // 考试结果 } STU; // 函数声明 void read(STU st[], int n); void write(STU st[], int n); void output(STU st[], int n); int process(STU st[], int n, STU st_pass[]); int main() { STU stu[N], stu_pass[N]; int cnt; double pass_rate; printf("从文件读入%d个考生信息...\n", N); read(stu, N); printf("\n对考生成绩进行统计...\n"); cnt = process(stu, N, stu_pass); printf("\n通过考试的名单:\n"); output(stu, N); // 输出所有考生完整信息到屏幕 write(stu, N); // 输出考试通过的考生信息到文件 pass_rate = 1.0 * cnt / N; printf("\n本次等级考试通过率: %.2f%%\n", pass_rate * 100); return 0; } // 把所有考生完整信息输出到屏幕上 // 准考证号,姓名,客观题得分,操作题得分,总分,结果 void output(STU st[], int n) { int i; printf("准考证号\t姓名\t客观题得分\t操作题得分\t总分\t\t结果\n"); for (i = 0; i < n; i++) printf("%ld\t\t%s\t%.2f\t\t%.2f\t\t%.2f\t\t%s\n", st[i].id, st[i].name, st[i].objective, st[i].subjective, st[i].sum, st[i].result); } // 从文本文件examinee.txt读入考生信息:准考证号,姓名,客观题得分,操作题得分 void read(STU st[], int n) { int i; FILE *fin; fin = fopen("examinee.txt", "r"); if (!fin) { printf("fail to open file\n"); return; } for (i = 0; i < n; i++) fscanf(fin, "%ld %s %f %f", &st[i].id, st[i].name, &st[i].objective, &st[i].subjective); fclose(fin); } // 把通过考试的考生完整信息写入文件list_pass.txt // 准考证号,姓名,客观题得分,操作题得分,总分,结果 void write(STU s[], int n) { FILE *fp; fp = fopen("list_pass.txt", "w"); if (fp == NULL) { printf("fail to open file to write"); return; } fprintf(fp, "准考证号\t\t姓名\t\t客观题得分\t操作题得分\t\t总分\t\t结果\n"); for (int i = 0; i < n; i++) { fprintf(fp, "%ld\t%20s\t\t%.2f\t\t%.2f\t\t%.2f\t\t%s\n", s[i].id, s[i].name, s[i].objective, s[i].subjective, s[i].sum, s[i].result); } fclose(fp); } // 对考生信息进行处理:计算每位考生考试总分、结果;统计考试通过的人数 int process(STU st[], int n, STU st_pass[]) { int pass_count = 0; for (int i = 0; i < n; i++) { st[i].sum = st[i].objective + st[i].subjective; if (st[i].sum >= 60) { strcpy(st[i].result, "通过"); st_pass[pass_count++] = st[i]; } else { strcpy(st[i].result, "不及格"); } } return pass_count; }
结果:
实验任务六:
#include <stdio.h> #include <stdlib.h> #include <string.h> #include <time.h> typedef struct { char id[20]; char name[20]; char major[30]; } Student; void swap(Student *a, Student *b) { Student temp = *a; *a = *b; *b = temp; } void sort_by_id(Student arr[], int n) { for (int i = 0; i < n - 1; i++) { for (int j = 0; j < n - i - 1; j++) { if (strcmp(arr[j].id, arr[j + 1].id) > 0) { swap(&arr[j], &arr[j + 1]); } } } } int main() { FILE *fp; fp = fopen("list.txt", "r"); if (fp == NULL) { printf("Cannot open file!\n"); return 1; } Student allStu[100]; int total = 0; while (fscanf(fp, "%s %s %s", allStu[total].id, allStu[total].name, allStu[total].major) != EOF) { total++; } fclose(fp); srand((unsigned)time(NULL)); int flag[100] = {0}; Student selected[5]; int count = 0; while (count < 5) { int idx = rand() % total; if (flag[idx] == 0) { selected[count] = allStu[idx]; flag[idx] = 1; count++; } } sort_by_id(selected, 5); char file_name[20]; time_t t = time(NULL); struct tm *tm = localtime(&t); sprintf(file_name, "%04d%02d%02d.txt", tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday); printf("----------------%04d%02d%02d中奖名单----------------\n", tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday); for (int i = 0; i < 5; i++) { printf("%s %s %s\n", selected[i].id, selected[i].name, selected[i].major); } FILE *out = fopen(file_name, "w"); if (out == NULL) { printf("Cannot create file!\n"); return 1; } for (int i = 0; i < 5; i++) { fprintf(out, "%s %s %s\n", selected[i].id, selected[i].name, selected[i].major); } fclose(out); printf("文件保存成功!\n"); return 0; }
结果:
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