task1_1
源代码
#include <stdio.h> #define N 4 int main() { int x[N] = { 1,9,8,4 }; int i; int* p; // 方式1:通过数组名和下标遍历输出数组元素 for (i = 0; i < N; ++i) printf("%d", x[i]); printf("\n"); // 方式2:通过指针变量遍历输出数组元素 (写法1) for (p = x; p < x + N; ++p) printf("%d", *p); printf("\n"); // 方式2:通过指针变量遍历输出数组元素(写法2) p = x; for (i = 0; i < N; ++i) printf("%d", *(p + i)); printf("\n"); // 方式2:通过指针变量遍历输出数组元素(写法3) p = x; for (i = 0; i < N; ++i) printf("%d", p[i]); printf("\n"); return 0; }
运行结果
task1_2
源代码
#include<stdio.h> int main() { int x[2][4] = { {1,9,8,4},{2,0,4,9} }; int i, j; int* p; int(*q)[4]; for (i = 0; i < 2; ++i) { for (j = 0; j < 4; ++j) printf("%d", x[i][j]); printf("\n"); } printf("\n"); for (p=&x[0][0],i=0;p<&x[0][0]+8;++p, ++i) { printf("%d", *p); if ((i + 1) % 4==0) printf("\n"); } printf("\n"); for (q = x; q < x + 2; ++q) { for (j = 0; j < 4; ++j) printf("%d", *(*q + j)); printf("\n"); } printf("\n"); return 0; }
运行结果
task2
源代码
#define _CRT_SECURE_NO_WARNINGS #include <stdio.h> #include <string.h> #define N 80 int main() { char s1[] = "Learning makes me happy"; char s2[] = "Learning makes me sleepy"; char tmp[N]; printf("sizeof(s1) vs. strlen(s1): \n"); printf("sizeof(s1) = %d\n", sizeof(s1)); printf("strlen(s1) = %d\n", strlen(s1)); printf("\nbefore swap: \n"); printf("s1: %s\n", s1); printf("s2: %s\n", s2); printf("\nswapping...\n"); strcpy(tmp, s1); strcpy(s1, s2); strcpy(s2, tmp); printf("\nafter swap: \n"); printf("s1: %s\n", s1); printf("s2: %s\n", s2); return 0; }
运行结果
A1:S1的大小是24,sizeof统计的是占用的内存大小,包含休止符,strlen统计的字符串长度,不包含休止夫。
A2:不能,等号两边类型不同,s1是地址常量,”Learning make me happy“是字符常量。
A3:是的。
task2_2
源代码
#include <stdio.h> #include <string.h> #define N 80 int main() { char *s1 = "Learning makes me happy"; char *s2 = "Learning makes me sleepy"; char *tmp; printf("sizeof(s1) vs. strlen(s1): \n"); printf("sizeof(s1) = %d\n", sizeof(s1)); printf("strlen(s1) = %d\n", strlen(s1)); printf("\nbefore swap: \n"); printf("s1: %s\n", s1); printf("s2: %s\n", s2); printf("\nswapping...\n"); tmp = s1; s1 = s2; s2 = tmp; printf("\nafter swap: \n"); printf("s1: %s\n", s1); printf("s2: %s\n", s2); return 0; }
运行结果
A1:存放的”Learning make me happy“中第一个元素的地址,sizeof计算的指针变量s1占用的内存大小,strlen计算的s1指向的数组中的字符串长度。
A2:可以,2_1中s1是地址常量,2_2中的s1是指针变量。
A3:交换的s1,s2的指向关系,储存单元中的内容没有变。
task3
源代码
#include <stdio.h> void str_cpy(char* target, const char* source); void str_cat(char* str1, char* str2); int main() { char s1[80], s2[20] = "1984"; str_cpy(s1, s2); puts(s1); str_cat(s1, " Animal Farm"); puts(s1); return 0; } void str_cpy(char *target, const char *source) { while (*target++ = *source++) ; } void str_cat(char* str1, char* str2) { while (*str1) str1++; while (*str1++ = *str2++) ; }
运行结果
task4
源代码
#include <stdio.h> #define N 80 int func(char*); int main() { char str[80]; while (gets(str) != NULL) { if (func(str)) printf("yes\n"); else printf("no\n"); } return 0; } int func(char* str) { char *begin, *end; begin = end = str; while (*end) end++; end--;//锚定 while (begin < end) { if (*begin != *end) return 0; else { begin++; end--; } } return 1; }
运行结果
task5
源代码
#include <stdio.h> #define N 80 void func(char *); int main() { char s[N]; while (scanf("%s", s) != EOF) { func(s); puts(s); } return 0; } void func(char *str) { int i; char *p1, *p2, *p; p1 = str;//位于起始位置 while (*p1 == '*') p1++;//p1找到第一个字符 p2 = str; while (*p2) p2++; p2--;//p2来到最后位置 while (*p2 == '*') p2--; //p2找到最后一个字符 p = str; i = 0; while (p < p1) { str[i] = *p; p++; i++; } while (p <= p2) { if (*p != '*') { str[i] = *p; i++; } p++; } while (*p != '\0') { str[i] = *p; p++; i++; } str[i] = '\0'; }
运行结果
task6_1
源代码
#include <stdio.h> #include <string.h> void sort(char* name[], int n); int main() { char* course[4] = { "C Program", "C++ Object Oriented Program", "Operating System", "Data Structure and Algorithms" }; int i; sort(course, 4); for (i = 0; i < 4; i++) printf("%s\n", course[i]); return 0; } void sort(char* name[], int n) { int i, j; char* tmp; for (i = 0; i < n - 1; ++i) for (j = 0; j < n - 1 - i; ++j) if (strcmp(name[j], name[j + 1]) > 0) { tmp = name[j]; name[j] = name[j + 1]; name[j + 1] = tmp; } }
运行结果
task6_2
源代码
#include <stdio.h> #include <string.h> void sort(char* name[], int n); int main() { char* course[4] = { "C Program", "C++ Object Oriented Program", "Operating System", "Data Structure and Algorithms" }; int i; sort(course, 4); for (i = 0; i < 4; i++) printf("%s\n", course[i]); return 0; } void sort(char* name[], int n) { int i, j; char* tmp; for (i = 0; i < n - 1; ++i) for (j = 0; j < n - 1 - i; ++j) if (strcmp(name[j], name[j + 1]) > 0) { tmp = name[j]; name[j] = name[j + 1]; name[j + 1] = tmp; } }
运行结果
A:交换的指针变量,内存的之没有改变
task7
源代码
#include <stdio.h> #include <string.h> #define N 5 int check_id(char* str); // 函数声明 int main() { char* pid[N] = { "31010120000721656X", "330106199609203301", "53010220051126571", "510104199211197977", "53010220051126133Y" }; int i; for (i = 0; i < N; ++i) if (check_id(pid[i])) // 函数调用 printf("%s\tTrue\n", pid[i]); else printf("%s\tFalse\n", pid[i]); return 0; } // 函数定义 // 功能: 检查指针str指向的身份证号码串形式上是否合法。 // 形式合法,返回1,否则,返回0 int check_id(char* str) { int i, j, k; char* tmp; tmp=str; while ((*tmp <='9' && *tmp >= '0') || *tmp == 'X') tmp++; if (*tmp == '\0' && strlen(str) == 18) return 1; else return 0; }
运行结果
task8
源代码
#include <stdio.h> #define N 80 void encoder(char* s); // 函数声明 void decoder(char* s); // 函数声明 int main() { char words[N]; printf("输入英文文本: "); gets(words); printf("编码后的英文文本: "); encoder(words); // 函数调用 printf("%s\n", words); printf("对编码后的英文文本解码: "); decoder(words); // 函数调用 printf("%s\n", words); return 0; } /*函数定义 功能:对s指向的字符串进行编码处理 编码规则: 对于a~z或A~Z之间的字母字符,用其后的字符替换; 其中,z用a替换,Z用A替换 其它非字母字符,保持不变 */ void encoder(char* s) { char* tmp; tmp = s; int i = 0; while (*tmp) { if (*tmp == 'z') s[i++] = 'a', tmp++; else if (*tmp == 'Z') s[i++] = 'A', tmp++; else if (*tmp < 'A' || *tmp>'z') s[i] = s[i++], tmp++; else s[i++] = *tmp + 1,tmp++; } } void decoder(char* s) { char* tmp; tmp = s; int i = 0; while (*tmp) { if (*tmp == 'a') s[i++] = 'z', tmp++; else if (*tmp == 'A') s[i++] = 'Z', tmp++; else if (*tmp < 'A' || *tmp>'z') s[i] = s[i++], tmp++; else s[i++] = *tmp - 1, tmp++; } }
运行结果
