76: }
00401298 lea ecx,[ebp-14h]
0040129B call @ILT+0(employee::~employee) (00401005)
004012A0 mov dword ptr [ebp-4],0FFFFFFFFh
004012A7 lea ecx,[ebp-10h]
004012AA call @ILT+0(employee::~employee) (00401005)
004012AF mov ecx,dword ptr [ebp-0Ch]
004012B2 mov dword ptr fs:[0],ecx
004012B9 pop edi
004012BA pop esi
004012BB pop ebx
004012BC add esp,54h
004012BF cmp ebp,esp
004012C1 call __chkesp (004086b0)
004012C6 mov esp,ebp
004012C8 pop ebp
004012C9 ret
我们直接看74行和75行。我们看到复制的对象地址都是惊人的一致,这说明实际上m和n所指的value实际上是同一个地址0x401005。不过,类的静态对象有一个要求,那就是对象的静态变量必须像全局变量一样进行初始化操作。
(2)静态函数
静态函数和静态变量一样,实际上就是类的全局函数。它之所以和普通的成员函数不一样,就是因为它不需要定义类的类型就能使用这个函数。根据上面的信息,我们可以重新定义一下这个类:
class employee
{
public:
employee() { }
~employee() {}
static void print() { printf("employee::print()!\n");};
};
class employee
{
public:
employee() { }
~employee() {}
static void print() { printf("employee::print()!\n");};
}; 那么类的静态函数是这样使用的呢?大家看看下面这样一个函数:
68: void process()
69: {
00401230 push ebp
00401231 mov ebp,esp
00401233 sub esp,40h
00401236 push ebx
00401237 push esi
00401238 push edi
00401239 lea edi,[ebp-40h]
0040123C mov ecx,10h
00401241 mov eax,0CCCCCCCCh
00401246 rep stos dword ptr [edi]
70: employee::print();
00401248 call @ILT+0(employee::print) (00401005)
71: }
0040124D pop edi
0040124E pop esi
0040124F pop ebx
00401250 add esp,40h
00401253 cmp ebp,esp
00401255 call __chkesp (00408620)
0040125A mov esp,ebp
0040125C pop ebp
0040125D ret
68: void process()
69: {
00401230 push ebp
00401231 mov ebp,esp
00401233 sub esp,40h
00401236 push ebx
00401237 push esi
00401238 push edi
00401239 lea edi,[ebp-40h]
0040123C mov ecx,10h
00401241 mov eax,0CCCCCCCCh
00401246 rep stos dword ptr [edi]
70: employee::print();
00401248 call @ILT+0(employee::print) (00401005)
71: }
0040124D pop edi
0040124E pop esi
0040124F pop ebx
00401250 add esp,40h
00401253 cmp ebp,esp
00401255 call __chkesp (00408620)
0040125A mov esp,ebp
0040125C pop ebp
0040125D ret
静态函数不需要对应的类对象,所以也就不需要this指针。这就是成员函数和静态函数的区别,仅此而已。