In your specific case, no, there isn't any difference.

Detailed answer:

Under the hood, `std::move(t)`

does `static_cast<typename std::remove_reference<T>::type&&>(t)`

, where `T`

is type of `t`

(see §20.2.3/6). In your case, it resolves to `static_cast<int&&>(nb)`

.

`forward`

is a little bit tricky, because it is tailored for use in templates (to allow perfect forwarding) and not as a tool to cast lvalue to rvalue reference.

Standard library provides two overloads (one for lvalue references and the second for rvalue ones, see §20.2.3/2):

```
template <class T> T&& forward(typename remove_reference<T>::type& t) noexcept;
template <class T> T&& forward(typename remove_reference<T>::type&& t) noexcept;
```

Substituting `int`

, we get:

```
int&& forward(int& t) noexcept;
int&& forward(int&& t) noexcept;
```

And since `nb`

is lvalue, the first version is chosen. According to standard draft, the only effect of `forward`

is `static_cast<T&&>(t)`

. With `T`

being `int`

, we get `static_cast<int&&>(nb)`

, i.e. - we get two exactly same casts.

Now, if you want to cast lvalue to rvalue (to allow moving), please use only `std::move`

, which is the idiomatic way to do this conversion. `std::forward`

is not intended to be used this way.