C++:
这里引用到了 http://blog.****.net/haoel/article/details/1948051/ 中的内容,还请提前阅读陈大神的这篇博客后在阅读本篇。
覆盖,实现多态的基础,通过虚函数表来实现,下面这个例子便是覆盖 Override
#include<iostream>
using namespace std;
class Base{
public:
Base(){
cout << "Base::Base" << endl;
}
virtual void f(){
cout << "Base::f" << endl;
}
};
class Derived : public Base{
public:
Derived(){
cout << "Devried::Derived" << endl;
}
void f(){
cout << "Derived::f" << endl;
}
};
int main(){
Base *p = new Derived(); // Base::Base CRCL Derived::Derived
p->f(); // Derived::f
}
如果 Base类f()没有被virtual修饰,如下
#include<iostream>
using namespace std;
class Base{
public:
Base(){
cout << "Base::Base" << endl;
}
void f(){
cout << "Base::f" << endl;
}
};
class Derived : public Base{
public:
Derived(){
cout << "Devried::Derived" << endl;
}
void f(){
cout << "Derived::f" << endl;
}
};
int main(){
Base *p = new Derived();
p->f(); // Base::f
}
如果理解了陈大神博客上那些图,应该不会对这个结果产生意外,这是我画的一个草图,并不对应于真实的内存地址情况,只是为了方便说明概念,下面一排描述的是Derived:
解析:首先p是Base类型的指针,其对于p而言其能只能按照Base类型去运算偏移地址等来访问,所以其不可能访问到Derived中的函数。也就是说父类指针的作用域只有int a , Base::f Base::g这一部分。这样就能理解了。
隐藏,父类指针的访问域是父类部分,子类虽然拥有一份父类函数的拷贝,但如果子类中存在于父类同名的函数,则调用和变量类型一致的函数(即父类变量调用父类函数,子类变量调用子类函数,同时成对方的函数被隐藏)。例:
#include<iostream>
using namespace std;
class Base{
public:
int a;
Base(){
cout << "Base::Base" << endl;
}
void f(float a){
cout << "Base::f" << endl;
}
};
class Derived : public Base{
public:
int d;
Derived(){
cout << "Devried::Derived" << endl;
}
void f(int a){
cout << "Derived::f" << endl;
}
};
int main(){
Derived *p = new Derived();
p->f(3.14f); // Derived::f
}
这里虽然传入f的参数是float型,更适合调用Base::f,但根据同名优先调用子类的原则,实际调用为Derived::f。这就是父类同名方法被隐藏,如果指针类型为父类,则称子类方法被隐藏。
如果子类f定义为 void f() 这里对f传值就会编译不通过。
Java
覆盖,java的情况很简单,只要是子类含有和父类的同名方法,就是覆盖(无论子类的函数是否为abstract)。
public class Test {
public static void main(String[] args){
Base base = new Derived();
base.f(); // Derived::f
}
}
class Base {
public void f() {
System.out.println("Base::f");
}
}
class Derived extends Base {
public void f() {
System.out.println("Derived::f");
}
}
隐藏,Java中也存在隐藏,不过这个隐藏和C++不太一样,子类对象引用可以调用父类的同名函数
public class Test {
public static void main(String[] args){
Derived derived = new Derived();
derived.f(); //Derived::f
derived.f(3.14f); // Base::f
}
}
class Base {
public void f(float a) {
System.out.println("Base::f");
}
}
class Derived extends Base {
public void f(int a) {
System.out.println("Derived::f");
}
}
再讲覆盖,C++父类函数中如果调用了自己的虚成员函数,那么由于这个虚成员函数被覆盖了,所以其实相当于调用了子类的函数。例:
#include<iostream>
using namespace std;
class Base{
public:
int a;
Base(){
cout << "Base::Base" << endl;
}
void f(){
g();
}
virtual void g(){
cout << "Base::g" << endl;
}
};
class Derived : public Base{
public:
int d;
Derived(){
cout << "Devried::Derived" << endl;
}
void g(){
cout << "Derived::g" << endl;
}
};
int main(){
Derived *p = new Derived();
p->f(); // Derived::g
}
Java中类似:
public class Test {
public static void main(String[] args){
Base base = new Derived();
base.f(); //Derived::f
}
}
class Base {
public void f() {
g();
}
public void g(){
System.out.println("Base::g");
}
}
class Derived extends Base {
public void g(){
System.out.println("Derived::g");
}
}
由于想利用这种特性,有人会犯一个错误,在父类的构造函数中调用被覆盖的函数,由于子类在构建时先调用父类的构造函数,此时子类为构造所以不能调到子类的覆盖方法,由此
产生了奇怪的错误。