(1) Introduction:
An inner class is actually a type of local data that is defined within a class declaration. (very similar to the struct node declaration), which differs from Java.
----internal class declarations have public and private points
If declared as public, it can also be used to define variables, such as Outer::inner var
If the declaration is private, then the outside can not be used to define variables, then Outer::inner var will cause compilation errors. (2)----internal class declaration can be used to define variables
this is the same as defining variables for other data types, as are access rules. Without him ----mutual access to internal and external classes
cannot be accessed, it is entirely dependent on the defined properties of the member variable. (3) code implementation (see note below, not too much explanation here)
#include <iostream> using namespace std;
Class A {Public:class B1 {public:int A;
Private:int b; public:void foo (A &p) {cout << p.i1 << Endl; OK, because I1 is public in class A cout << p.i2 << Endl;
Fail, because I2 is private in class A}};
Private:class B2 {Public:int A;
Private:int b; public:void foo (A &p) {cout << p.i1 << Endl; OK, because I1 is public in class A cout << p.i2 << Endl;
Fail, because I2 is private in class A}};
PUBLIC:B1 B11;
B2 B12;
int i1;
PRIVATE:B1 B21;
B2 B22;
int i2; Public:void f (b1& p) {cout << p.a << Endl; OK, because a is public in class B1 cout << p.b << Endl; Fail, because B is private IN class B1} void F (b2& p) {cout << p.a << Endl; OK, because a is public in class B2 cout << p.b << Endl;
Fail, because B is private in class B2}};
int main (int argc, char *argv[]) {a A; A::B1 AB1;
OK, because B1 is declared as public inner class. A::B2 ab2;
Fail, because B2 is declared as private inner class return 0; }