试验任务1:
task1_1:
1、是;4个字节
2、是;1个字节
3、是;是
task1_2:
1、是;4个内存字节
2、是;1个内存字节
实验任务2:
#include <stdio.h> #define N 13 int days_of_year(int year, int month, int day); int main() { int year, month, day; int days; while(scanf("%d%d%d", &year, &month, &day) != EOF) { days = days_of_year(year, month, day); printf("%4d-%02d-%02d是这一年的第%d天.\n\n", year, month, day, days); } return 0; } int days_of_year(int year, int month, int day) { int a[N],i; a[1] = 31; a[2] = 28; a[3] = 31; a[4] = 30; a[5] = 31; a[6] = 30; a[7] = 31; a[8] = 31; a[9] = 30; a[10] = 31; a[11] = 30; a[12] = 31; if ((year % 4 == 0 && year % 100 != 0)||year % 400 == 0) { for(i = 1;i <= month - 1;i++) day += a[i] ; day += 1; } else { for(int i = 1;i <= month - 1;i++) day += a[i] ; } return day; }
实验任务3:
#include <stdio.h> #define N 5 // 函数声明 void input(int x[], int n); void output(int x[], int n); double average(int x[], int n); void bubble_sort(int x[], int n); int main() { int scores[N]; double ave; printf("录入%d个分数:\n", N); input(scores, N); printf("\n输出课程分数: \n"); output(scores, N); printf("\n课程分数处理: 计算均分、排序...\n"); ave = average(scores, N); bubble_sort(scores, N); printf("\n输出课程均分: %.2f\n", ave); printf("\n输出课程分数(高->低):\n"); output(scores, N); return 0; } // 函数定义 // 输入n个整数保存到整型数组x中 void input(int x[], int n) { int i; for(i = 0; i < n; ++i) scanf("%d", &x[i]); } // 输出整型数组x中n个元素 void output(int x[], int n) { int i; for(i = 0; i < n; ++i) printf("%d ", x[i]); printf("\n"); } // 计算整型数组x中n个元素均值,并返回 // 补足函数average()实现 // ××× double average(int x[], int n) { double aver; int sum = 0; for(int i = 0;i<n;i++) { sum += x[i]; } aver = (double) sum / N; } // 对整型数组x中的n个元素降序排序 // 补足函数bubble_sort()实现 // ××× void bubble_sort(int x[], int n) { int stop = 0,t; while (stop == 0) { stop = 1; for(int i = 0;i < n;i++) { if(x[i] < x[i+1]) { stop = 0; t = x[i]; x[i] = x[i+1]; x[i+1] = t; } } } return; }
实验任务4:
#include <stdio.h> #define N 100 void dec2n(int x, int n); // 函数声明 int main() { int x; printf("输入一个十进制整数: "); while(scanf("%d", &x) != EOF) { dec2n(x, 2); // 函数调用: 把x转换成二进制输出 dec2n(x, 8); // 函数调用: 把x转换成八进制输出 dec2n(x, 16); // 函数调用: 把x转换成十六进制输出 printf("\n输入一个十进制整数: "); } return 0; } // 函数定义 // 功能: 把十进制数x转换成n进制,打印输出 // 补足函数实现 // ××× void dec2n(int x, int n) { char list[16] = {'0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F'} ; int count = 0,k; char result[N]; for(int i = 0;;i++) { if(x == 0) break; k = x % n; x /= n; result[i] = list[k]; count ++; } for(int i = count-1 ;i >= 0;i--) printf("%c",result[i]); printf("\n"); return; }
#include <stdio.h> #include <string.h> #define N 80 int main() { char views1[N] = "hey, C, I have not love u yet."; char views2[N] = "hey, C, how can I love u?"; char t[N]; printf("交换前: \n"); printf("views1: %s\n", views1); printf("views2: %s\n", views2); strcpy(t, views1); strcpy(views1, views2); strcpy(views2, t); printf("交换后: \n"); printf("views1: %s\n", views1); printf("views2: %s\n", views2); return 0; }
实验任务5:
#include <stdio.h> #define N 100 // 函数声明 void func(int x[][N], int n); // 注意:两维数组作为形参的语法 void output(int x[][N], int n); // 注意:两维数组作为形参的语法 int main() { int x[N][N]; int i, j, n; printf("Enter n: "); while(scanf("%d", &n) != EOF) { func(x, n); // 注意:两维数组作为实参的语法 output(x, n); // 注意:两维数组作为实参的语法 printf("\nEnter n: "); } return 0; } // 函数定义 // 功能:输出两维数组x中的数据,数据项n行、n列 void output(int x[][N], int n) { int i, j; for(i = 0; i < n; ++i) { for(j = 0; j < n; ++j) printf("%5d", x[i][j]); printf("\n"); } } // 函数定义 // 功能:生成n行n列的左上拐矩阵,保存在两维数组x中 // 补足函数实现 // ××× void func(int x[][N], int n) { int i,j; for(i = 0;i < n;i++) { for(j = 0;j < n;j++) { if(j >= i) x[i][j] = i + 1; else x[i][j] = j + 1; } } return; }
实验任务6:
task 6_1:
#include <stdio.h> #include <string.h> #define N 80 int main() { char views1[N] = "hey, C, I have not love u yet."; char views2[N] = "hey, C, how can I love u?"; char t[N]; printf("交换前: \n"); printf("views1: %s\n", views1); printf("views2: %s\n", views2); strcpy(t, views1); strcpy(views1, views2); strcpy(views2, t); printf("交换后: \n"); printf("views1: %s\n", views1); printf("views2: %s\n", views2); return 0; }
task 6_2:
#include <stdio.h> #include <string.h> #define N 80 int main() { char views[2][N] = {"hey, C, I have not love u yet.", "hey, C, how can I love u?"}; char t[N]; printf("交换前: \n"); printf("views1: %s\n", views[0]); printf("views2: %s\n", views[1]); strcpy(t, views[0]); strcpy(views[0], views[1]); strcpy(views[1], t); printf("交换后: \n"); printf("views1: %s\n", views[0]); printf("views2: %s\n", views[1]); return 0; }
实验任务7:
#include <stdio.h> #include <string.h> #define N 5 #define M 20 void bubble_sort(char str[][M], int n); // 函数声明 int main() { char name[][M] = {"Bob", "Bill", "Joseph", "Taylor", "George"}; int i; printf("输出初始名单:\n"); for (i = 0; i < N; i++) printf("%s\n", name[i]); printf("\n排序中...\n"); bubble_sort(name, N); // 函数调用 printf("\n按字典序输出名单:\n"); for (i = 0; i < N; i++) printf("%s\n", name[i]); return 0; } // 函数定义 // 功能:使用冒泡排序算法对二维数组str中的n个字符串按字典序排序 // 补足函数bubble_sort()实现 // ××× void bubble_sort(char str[][M], int n) { int i,k,stop = 1; char t[100]; while(stop == 1) { stop = 0; for (i = 0;i<n-1;i++) { if(strcmp(str[i],str[i+1]) > 0) { strcpy(t,str[i]); strcpy(str[i],str[i+1]); strcpy(str[i+1],t); stop = 1; } } } return; }
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