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I saw this here: Move Constructor calling base-class Move Constructor

Could someone explain:

  1. the difference between std::move and std::forward, preferably with some code examples?
  2. How to think about it easily, and when to use which
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1  
See also these two related questions: Should I use std::move or std::forward in move ctors/assignment operators? and How does std::forward work? (aswell as the duplicated question). –  Xeo Mar 12 '12 at 17:34
    
"How to think about it easily, and when to use which" You use move when you want to move a value, and forward when you want to use perfect forwarding. This isn't rocket science here ;) –  Nicol Bolas Mar 12 '12 at 17:47

3 Answers 3

up vote 44 down vote accepted

std::move takes an object and allows you to treat it as a temporary (an rvalue). Although it isn't a semantic requirement, typically a function accepting a reference to an rvalue will invalidate it. When you see std::move, it indicates that the value of the object should not be used afterwards, but you can still assign a new value and continue using it.

std::forward has a single use case: to cast a templated function parameter (inside the function) to the value category (lvalue or rvalue) the caller used to pass it. This allows rvalue arguments to be passed on as rvalues, and lvalues to be passed on as lvalues, a scheme called "perfect forwarding."

To illustrate:

void overloaded( int const &arg ) { std::cout << "by lvalue\n"; }
void overloaded( int && arg ) { std::cout << "by rvalue\n"; }

template< typename t >
/* "t &&" with "t" being template param is special, and  adjusts "t" to be
   (for example) "int &" or non-ref "int" so std::forward knows what to do. */
void forwarding( t && arg ) {
    std::cout << "via std::forward: ";
    overloaded( std::forward< t >( arg ) );
    std::cout << "via std::move: ";
    overloaded( std::move( arg ) ); // conceptually this would invalidate arg
    std::cout << "by simple passing: ";
    overloaded( arg );
}

int main() {
    std::cout << "initial caller passes rvalue:\n";
    forwarding( 5 );
    std::cout << "initial caller passes lvalue:\n";
    int x = 5;
    forwarding( x );
}

As Howard mentions, there are also similarities as both these functions simply cast to reference type. But outside these specific use cases (which cover 99.9% of the usefulness of rvalue reference casts), you should use static_cast directly and write a good explanation of what you're doing.

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I'm not sure it's accurate that std::forward's only use case is perfect forwarding of function arguments. I've run into situations where I want to perfectly forward other things, like object members. –  Geoff Romer Dec 11 '13 at 16:53
    
@GeoffRomer Members of a parameter? Do you have an example? –  Potatoswatter Dec 11 '13 at 23:11
    
I posted an example as a separate question: stackoverflow.com/questions/20616958/… –  Geoff Romer Dec 16 '13 at 23:47
    
Hmm, so if I understand this correctly, it means that I can write a single function forward() where forward(5) operates on 5 as if I passed it by value where forward(x) operates on x as if I passed it by reference without having to explicitly write an overload. –  iheanyi Jul 17 at 21:07
    
@iheanyi Yep, that's the idea! But it has to be a template, not just an ordinary function. –  Potatoswatter Jul 17 at 23:53

Both std::forward and std::move are nothing but casts.

X x;
std::move(x);

The above casts the lvalue expression x of type X to an rvalue expression of type X (an xvalue to be exact). move can also accept an rvalue:

std::move(make_X());

and in this case it is an identity function: takes an rvalue of type X and returns an rvalue of type X.

With std::forward you can select the destination to some extent:

X x;
std::forward<Y>(x);

Casts the lvalue expression x of type X to an expression of type Y. There are constraints on what Y can be.

Y can be an accessible Base of X, or a reference to a Base of X. Y can be X, or a reference to X. One can not cast away cv-qualifiers with forward, but one can add cv-qualifiers. Y can not be a type that is merely convertible from X, except via an accessible Base conversion.

If Y is an lvalue reference, the result will be an lvalue expression. If Y is not an lvalue reference, the result will be an rvalue (xvalue to be precise) expression.

forward can take an rvalue argument only if Y is not an lvalue reference. That is, you can not cast an rvalue to lvalue. This is for safety reasons as doing so commonly leads to dangling references. But casting an rvalue to rvalue is ok and allowed.

If you attempt to specify Y to something that is not allowed, the error will be caught at compile time, not run time.

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std::forward is used to forward a parameter exactly the way it was passed to a function. Just like shown here:

When to use std::forward to forward arguments?

Using std::move offers an object as an rvalue, to possibly match a move constructor or a function accepting rvalues. It does that for std::move(x) even if x is not an rvalue by itself.

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