I am coding a small numeric analysis library in C++. I have been trying to implement using the latest C++11 features including move semantics. I understand the discussion and top answer at the following post: C++11 rvalues and move semantics confusion , but there is one scenario that I still am trying to wrap my head around.

I have a class, call it `T`

, which is fully equipped with overloaded operators. I also have both copy and move constructors.

```
T (const T &) { /*initialization via copy*/; }
T (T &&) { /*initialization via move*/; }
```

My client code heavily uses operators, so I am trying to ensure that complex arithmetic expressions get maximum benefit from move semantics. Consider the following:

```
T a, b, c, d, e;
T f = a + b * c - d / e;
```

Without move semantics, my operators are making a new local variable using the copy constructor each time, so there are a total of 4 copies. I was hoping that with move semantics I could reduce this to 2 copies plus some moves. In the parenthesized version:

```
T f = a + (b * c) - (d / e);
```

each of `(b * c)`

and `(d / e)`

must create the temporary in the usual way with a copy, but then it would be great if I could leverage one of those temporaries to accumulate the remaining results with only moves.

Using g++ compiler, I have been able to do this, but I suspect my technique may not be safe and I want to fully understand why.

Here is an example implementation for the addition operator:

```
T operator+ (T const& x) const
{
T result(*this);
// logic to perform addition here using result as the target
return std::move(result);
}
T operator+ (T&& x) const
{
// logic to perform addition here using x as the target
return std::move(x);
}
```

Without the calls to `std::move`

, then only the `const &`

version of each operator is ever invoked. But when using `std::move`

as above, subsequent arithmetic (after the innermost expressions) are performed using the `&&`

version of each operator.

I know that RVO can be inhibited, but on very computationally-expensive, real-world problems it seems that the gain slightly outweighs the lack of RVO. That is, over millions of computations I do get a very tiny speedup when I include `std::move`

. Though in all honesty it is fast enough without. I really just want to fully comprehend the semantics here.

Is there a kind C++ Guru who is willing to take the time to explain, in a simple way, whether and why my use of std::move is a bad thing here? Many thanks in advance.

`move`

is fine. Only the first one is unnecessary. – Kerrek SB Oct 31 '12 at 19:25`T`

exactly? Does it manage something on the heap via pointers? Because if it only has a couple of`int`

members or something, move semantics will not gain you anything. Just asking :) – FredOverflow Nov 1 '12 at 5:55