我有一个类(base),它有许多继承者(derived_i)和其他一些类型(other)。我希望在某个类处理程序(caller)中有一个模板方法,它以不同的方式处理base的继承者,然后处理其他类型。
以下是我讲述的示例代码。
#include <iostream>
using namespace std;
template <typename T>
class base {
public:
base (T val = T())
: m_val(val)
{}
base (const base &other)
: base(other.m_val)
{}
virtual void base_specific_method()
{
cout << __func__ << " method called: " << m_val << endl;
}
void each_class_has_this() {
cout << __func__ << " this is boring..." << endl;
}
T m_val;
};
class other {
public:
void each_class_has_this() {
cout << __func__ <<" this is boring..." << endl;
}
};
class derived_i : public base <int>
{
public:
derived_i () : base <int> (10)
{}
virtual void base_specific_method()
{
cout << __func__ <<" Hey! I'm interesting derived! And 10 == " << m_val << endl;
}
};
template <typename T>
class caller {
public:
caller (T val = T())
: m_val(val)
{}
void call() {
p_call(m_val);
}
private:
template <typename T1> void p_call (T1 &val)
{
val.each_class_has_this();
}
template <typename T1> void p_call (base<T1> &val)
{
val.base_specific_method();
}
private:
T m_val;
};
int main ()
{
caller<other> c1;
caller<base<double> > c2;
caller<derived_i > c3;
c1.call();
c2.call();
c3.call();
}
它使用g++ -std=c++11 test.cpp编译,输出是下一个:
each_class_has_this this is boring...
base_specific_method method called: 0
each_class_has_this this is boring...
虽然我期待
each_class_has_this this is boring...
base_specific_method method called: 0
base_specific_method Hey! I'm interesting derived! And 10 == 10
有没有办法更改此代码以使其适合我的请求?
这个问题似乎与another question重复,但正确的答案会导致问题,我在这里面临。
P.S。没有办法让base和other来自一个类的继承者。 =(
答案 0 :(得分:2)
您可以使用SFINAE获得所需的行为:
像这样添加一个类has_specific:
template <typename T>
class has_specific
{
typedef char one;
typedef long two;
template <typename C> static one test( typeof(&C::base_specific_method) ) ;
template <typename C> static two test(...);
public:
enum { value = sizeof(test<T>(0)) == sizeof(char) };
};
并将p_call的定义更改为:
template <typename T1=T>
typename enable_if<!has_specific<T1>::value,void>::type
p_call (T1 &val)
{
val.each_class_has_this();
}
template <typename T1=T>
typename enable_if<has_specific<T1>::value,void>::type
p_call (T1 &val)
{
val.base_specific_method();
}
在这种情况下,我在返回类型中使用了SFINAE。应该可以在模板参数列表或参数列表中使用它,但是这个是我首先工作的那个。
作为技术细节,此实现不依赖于您是否具有派生自base的类,但是如果存在方法base_specific_method(),但我希望它仍然可以帮助解决您的问题。
Try it online
has_specific taken from here
return type SFINAE taken from here
答案 1 :(得分:1)
您可以将std::enable_if与std::is_base_of结合使用,以区分派生自base<T>的类别。
template <typename T, typename TT = void>
class caller {
public:
caller (T val = T())
: m_val(val)
{}
void call() {
p_call(m_val);
}
private:
template <typename T1> typename std::enable_if<!std::is_base_of<base<TT>, T1>::value>::type p_call (T1 &val)
{
val.each_class_has_this();
}
template <typename T1> typename std::enable_if<std::is_base_of<base<TT>, T1>::value>::type p_call(T1& val)
{
val.base_specific_method();
}
private:
T m_val;
};
请注意,base是一个模板类,这意味着T1可能是base<int>或base<double>的派生类,依此类推。我们无法计算所有可能性,因此需要将模板参数TT指定为提示。然后将其用作:
caller<other> c1;
caller<base<double>, double> c2;
caller<derived_i, int> c3; // derived_i derived from base<int>
c1.call();
c2.call();
c3.call();
结果:
each_class_has_this this is boring...
base_specific_method method called: 0
base_specific_method Hey! I'm interesting derived! And 10 == 10
或者你可以创建一个最基础的类来简化:
class abstract_base {
public:
virtual void base_specific_method() = 0;
virtual ~abstract_base() {}
};
template <typename T>
class base : public abstract_base {
...
};
...
template <typename T>
class caller {
...
template <typename T1> typename std::enable_if<!std::is_base_of<abstract_base, T1>::value>::type p_call (T1 &val)
{
val.each_class_has_this();
}
template <typename T1> typename std::enable_if<std::is_base_of<abstract_base, T1>::value>::type p_call(T1& val)
{
val.base_specific_method();
}
...
};