Hi, I'm looking for help understanding rvalue references I mean, I get the idea, but some things still are unclear, like should I overload all of my functions that take const& parameters to && parameters ?
I don't get it, why wouldn't I want to take an rvalue reference when I can take a const reference ? there are only advantages to be able to take rvalue references
No, there are disadvantages too. If you take an rvalue reference that means you want a temporary. That means the caller must provide a temporary which they otherwise would not.
For example void print(const std::string &s); is totally fine. Taking a std::string && instead means the function is less useful because it can only print temporaries and it doesn't even benefit from the fact that s is a temporary.
Yeah, but let's take an example. I have two instances of a custom type T names number1 and number2. The two following calls are equally likely, right ? funct(number1) or funct(number1 - number2)
but the first one gives T const& and the other one T&& right ?
You would expect that a - b returns a new object of the type of a and b and not change them.
You need to know what a temporary is, why that matters and how to turn a non-temporary into a temporary.
You want to know if something is a temporary because then you can do resource stealing.
For example an std::vector is essentially a pointer to some heap-allocated memory. If you make a copy then you have to allocate and move a bunch of objects.
But if you know that the vector is a temporary you can simply steal its pointer and save yourself a lot of trouble.
So we need to keep track of what is a temporary and what isn't. Also we need to be able to specify that we don't care about a value anymore and allow it being treated as a temporary.
The rule of thumb is that if you can take the address of the thing or it has a name then it is not a temporary.
So for example T &&t, the t is not a temporary because it has a name, t, and I can take the address of it with &t.
If I want to treat it as a temporary I use std::move(t) which allows whoever I give that to to steal resources from t because t dies anyways.
In other words, std::string{"Hello"} is a temporary. It has no name and you cannot take the address of it and if you pass it to an overloaded function taking a const std::string & and another taking a std::string && then the second will be chosen.
"Implicit cast" doesn't exist in C++. Casts are always explicit. The other thing is an implicit conversion. Although with references people usually say binding instead of converting.
So, when it's useful, I should always overload T funct(T const&) with T funct(T&&) in order to take advantage of the fact that temporaries cast to T&& which give me more room for optimization ?
If you return the value you are given then yes, that would sometimes mean you can skip a copy.
Another way is to write T funct(T). Either the copy constructor or the move constructor will be invoked to create that parameter which includes the copy skip and the you simply move the parameter.
Although this is a special case.
When you have a local variable, including a parameter, you don't explicitly use std::move.
C++ is usually stupid when it comes to detecting temporaries, but for local variables it has a special rule.
People like to say "std::move doesn't move and std::forward doesn't forward". Technically they only cast to the right reference type to help overload resolution.
