I have the following code directly from : http://www.justsoftwaresolutions.co.uk/cplusplus/rvalue_references_and_perfect_forwarding.html

compiled at g++ 4.8.1 as : g++ -std=c++11 testforward.cpp -o testforward.exe

```
#include <cstdlib>
#include <vector>
#include <string>
#include <iostream>
#include <algorithm>
class X
{
std::vector<double> data;
public:
X():
data(100000) // lots of data
{}
X(X const& other): // copy constructor
data(other.data) // duplicate all that data
{}
X(X&& other): // move constructor
data(std::move(other.data)) // move the data: no copies
{}
X& operator=(X const& other) // copy-assignment
{
data=other.data; // copy all the data
return *this;
}
X& operator=(X && other) // move-assignment
{
data=std::move(other.data); // move the data: no copies
return *this;
}
};
void g(X&& t)
{
std::cout << "t in g is rvalue" << std::endl ;
}
void g(X& t)
{
std::cout << "t in g is lvalue" << std::endl ;
}
template<typename T>
void f(T&&t)
{
g(std::forward<T>(t)) ;
}
void h(X &&t)
{
g(t) ;
}
int main()
{
X x;
f(x); // 1
f(X()); // 2
//h(x); //compile error
h(X()); // 3
}
```

According to the author describe below :

When you combine rvalue references with function templates you get an interesting interaction: if the type of a function parameter is an rvalue reference to a template type parameter then the type parameter is deduce to be an lvalue reference if an lvalue is passed, and a plain type otherwise...

The results output of this test are :

```
t in g is lvalue
t in g is rvalue
t in g is lvalue
```

f(x) get "t in g is lvalue" is just like expected !!

f(X()) get "t in g is rvalue" , yes,that is what std::forward used for

h(X()) get "t in g is lvalue" , this is my question ,as you can see that function h is not a template function , as the author describe "When you combine rvalue references with function templates you get an interesting interaction" is not the case , still this function output "t in g is lvalue" , means this interesting interaction happen not just in template function , also to normal function , too !!

if I change code to :

```
void h(X &&t)
{
g(std::forward<X>(t)) ;
}
```

I will got "t in g is rvalue" !!!

Accorind to test , May I said that the author describe "When you combine rvalue references with function templates you get an interesting interaction" actually not only to template function , it also apply to normal function , or my english is not good , so I can not catch this description right ?!

Edit :

```
void h(X &&t)
{
g(t) ;
}
void h(X &t)
{
g(t) ;
}
h(x); //get "t in g is lvalue"
h(X()); //get "t in g is lvalue"
=====================================================
void h(X &&t)
{
g(std::forward<X>(t)) ;
}
void h(X &t)
{
g(std::forward<X>(t)) ;
}
h(x); //get "t in g is rvalue"
h(X()); //get "t in g is rvalue"
```

Look like only in template function , I will get the cprrect usage of std::forward !!!