值传递、指针传递、引用传递
接上文《一个有关指针传参的问题》,打算结合一些简单的例子系统地梳理一下 C/C++ 中的值传递、指针传递和 C++ 中特有的 引用传递。
值传递
值传递传递实际上只是在执行函数的时候将实参的值赋给了形参,在此之后函数体内对形参的任何操作都与原来的实参无关了。
例如下边这个代码 1:
// 值传递 (C++代码)
#include <iostream>
using namespace std;
void func(int n)
{
cout << "The value of n in func(): " << n << endl;
cout << "The address of n in func(): " << &n << endl;
n++;
cout << "Then the value of n in func(): " << n << endl;
}
int main()
{
int n = 0;
cout << "The value of n in main(): " << n << endl;
cout << "The address of n in main(): " << &n << endl;
func(n);
cout << "Then the value of n in main(): " << n << endl;
return 0;
}
// 值传递 (C代码)
#include <stdio.h>
void func(int n)
{
printf("The value of n in func(): %d\n", n);
printf("The address of n in func(): 0x%x\n", &n);
n++;
printf("Then the value of n in func(): %d\n", n);
}
int main()
{
int n = 0;
printf("The value of n in main(): %d\n", n);
printf("The address of n in main(): 0x%x\n", &n);
func(n);
printf("Then the value of n in main(): %d\n", n);
return 0;
}
下边是可能的输出:
The value of n in main(): 0
The address of n in main(): 0x61fe1c
The value of n in func(): 0
The address of n in func(): 0x61fdf0
Then the value of n in func(): 1
Then the value of n in main(): 0
第二行第四行说明,main() 中的实参 n 与 func() 中的形参 n 存储在内存的不同位置,不是同一个变量。第五第六行说明,对形参 n 的操作,不会影响实参 n。
指针传递
指针传递也就是传参时不直接传某个参数的值,而是传它的地址。把这个地址作为实参,而形参又是复制实参而来的,所以形参也是原来参数的地址,这样再对形参解除引用,实际上就是对同一内存的值进行操作,所以当然在自定函数中的操作会在主函数中反映出来,请看下边的代码 2:
// 指针传递 (C++代码)
#include <iostream>
using namespace std;
void func(int *p)
{
cout << "The value of n(*p) in func(): " << *p << endl;
cout << "The address of n(p) in func(): " << p << endl;
(*p)++;
cout << "Then the value of n(*p) in func(): " << *p << endl;
}
int main()
{
int n = 0;
cout << "The value of n in main(): " << n << endl;
cout << "The address of n in main(): " << &n << endl;
func(&n); // 把想要传递的参数的地址作为实参传入
cout << "Then the value of n in main(): " << n << endl;
return 0;
}
// 指针传递 (C代码)
#include <stdio.h>
void func(int *p)
{
printf("The value of n(*p) in func(): %d\n", *p);
printf("The address of n(p) in func(): 0x%x\n", p);
(*p)++;
printf("Then the value of n(*p) in func(): %d\n", *p);
}
int main()
{
int n = 0;
printf("The value of n in main(): %d\n", n);
printf("The address of n in main(): 0x%x\n", &n);
func(&n);
printf("Then the value of n in main(): %d\n", n);
return 0;
}
下边是可能的输出:
The value of n in main(): 0
The address of n in main(): 0x61fe1c
The value of n(*p) in func(): 0
The address of n(p) in func(): 0x61fe1c
Then the value of n(*p) in func(): 1
Then the value of n in main(): 1
这实际上就是 《一个有关指针传参的问题》- 分析及解决分案 中的代码 2 的思路。只不过这里我们是对 int 类型的普通变量操作,所以函数接受的参数类型是 int*,而在那篇文章中是要对 int*类型的变量操作,所以自定函数接受的参数类型变成了int**。
引用传递
{% raw %}
注意引用传递是 C++ 的特性,C 没有这个特性。
引用传递相当于给实参取了个别名,对形参的操作会同步到实参那边去,还是来看下边的代码 3 吧:
// 引用传递 (C++代码)
#include <iostream>
using namespace std;
void func(int &n2)
{
cout << "The value of n2 in func(): " << n2 << endl;
cout << "The address of n2 in func(): " << &n2 << endl;
n2++;
cout << "Then the value of n2 in func(): " << n2 << endl;
}
int main()
{
int n1 = 0;
cout << "The value of n1 in main(): " << n1 << endl;
cout << "The address of n1 in main(): " << &n1 << endl;
func(n1);
cout << "Then the value of n1 in main(): " << n1 << endl;
return 0;
}
下边是可能的输出:
The value of n1 in main(): 0
The address of n1 in main(): 0x61fe1c
The value of n2 in func(): 0
The address of n2 in func(): 0x61fe1c
Then the value of n2 in func(): 1
Then the value of n1 in main(): 1
类似地,int 类型的引用类型是 int&,int* 的引用类型是 int*&。