一、二级指针:
变量 = 内存地址 + 存储值;
指针 = 内存地址 + 变量内存地址;
二级指针 = 内存地址 + 指针内存地址;
多级指针 = 内存地址 + 上一级内存地址;
void morePointer() { int n = 190; int * pointer = &n; int ** pointerL2 = &pointer; printf("n -> %d ", n); printf("pointer -> %p ", pointer); printf("pointerL2 -> %p ", pointerL2); printf("*pointerL2 == pointer == &n ? -> %d (1 true 0 false), *pointerL2 -> %p ", *pointerL2 == pointer, *pointerL2); printf("**pointerL2 == *pointer == n ? -> %d (1 true 0 false), **pointerL2 -> %d ", **pointerL2 == n, **pointerL2); } int main() { morePointer(); return 0; }
二、参数传递
数据传递方式:
1、值传递
2、地址传递
// 使用值传递 void valueSwap(int n1, int n2) { int temp = n1; n1 = n2; n2 = temp; printf("in function valueSwap n1 = %d, n2 = %d ", n1, n2); } // 使用地址传递 void addrSwap (int * n1, int * n2) { int temp = *n1; *n1 = *n2; *n2 = temp; printf("in function addrSwap a = %d, b = %d ", *n1, *n2); } void testForSwap() { int a = 200; int b = 100; valueSwap(a, b); printf("in function testForSwap a = %d, b = %d ", a, b); addrSwap(&a, &b); printf("in function testForSwap a = %d, b = %d ", a, b); } int main() { testForSwap(); return 0; }
三、数组名作为函数参数
一个需求,定义一个函数用来遍历传递进来的数组
void printArray(int * arr, int size) { // 使用指针,允许是变量地址,但也可以是数组名称 for (int i = 0; i < size; ++i) { printf("element -> (%d), and mem-addr -> %p ", arr[i], &arr[i]); } printf("sizeof is pointer or array itself ? -> %d ", sizeof(arr)); } // 为了明确参数传递的是什么数据,建议是数组就传递数组 void printArrayV2(int array[], int length) { for (int i = 0; i < length; ++i) { printf("element -> (%d), and mem-addr -> %p ", array[i], &array[i]); } printf("sizeof is pointer or array itself ? -> %d ", sizeof(array)); } // 封装获取数组长度的方法 int getSize(int array[]) { return sizeof(array) / sizeof(int); } // 封装数组遍历的方法: void printArrayV3(int array[]) { for (int i = 0; i < getSize(array) ; ++i) { printf("el -> %d, mem-addr -> %p ", array[i], &array[i]); } printf("sizeof is pointer or array itself ? -> %d ", sizeof(array)); } int main() { int array[10] = {2, 4, 6, 8, 10, 12, 14, 16, 18, 20}; printArray(array, 10); printf("sizeof is pointer or array itself ? -> %d ", sizeof(array)); int array2[9] = { 2 }; printArrayV2(array2, sizeof(array2) / sizeof(int)); printf("sizeof is pointer or array itself ? -> %d ", sizeof(array2)); int array3[3] = { 100 }; printArrayV3(array3); printf("sizeof is pointer or array itself ? -> %d ", sizeof(array3)); return 0; }
四、指针做函数的返回类型
// 定义一个全局变量 int g_a = 100; int * returnTypeUsage() { int a = 100; // 定义局部变量 { int a = 100; // 代码块中的局部变量 { int a = 100; // 块中块的局部变量 } } } // 封装一个获取地址的函数 int* getMemAddr() { return &g_a; } int main() { int *p = getMemAddr(); *p = 33000; printf("g_a -> %d ", g_a); return 0; }