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I know that this is OK:

struct Foo {
    Foo& operator=( Foo& ) = delete; // disallow assign
    Foo( int ) { }                   // some basic constructor
    Foo( const Foo& ) = delete;      // disallow copy
    Foo( Foo&& ) { }                 // allow move

Foo getFoo( void ) {
    return Foo( 3 );
Foo foo = getFoo( ); // uses move constructor

whereas this is will use the copy constructor, and is therefore invalid for Foo (and for any object with a copy constructor, it will be valid but inefficient):

const Foo getConstFoo( void ) {
    return Foo( 3 );
const Foo constFoo = getConstFoo( ); // error: copy constructor is deleted!

but this is OK: (and will extend the life of constFooRef)

const Foo& constFooRef = getConstFoo( ); // uses move constructor

Now, the second case will call

Foo( const Foo&& ) { }

if it's available. So I would like to know if there's any way to detect that the final object will be const from inside that constructor. If there is, I can apply move semantics (since both involved objects are const and the parameter isn't being used elsewhere it's ok to cast away the const-ness), and make the second case legal.

So while my question title explains the end-result I'm trying to achieve, my sub-problem is detecting whether an object will be const after it has been constructed (naïvely I tried Foo( const Foo&& ) const { }, but no luck there!)

share|improve this question
Just don't return const-values, period. Also, no, casting away constness would invoke UB, since the object was originally declared as const. –  Xeo Aug 10 '13 at 12:52
@Xeo I need to return const values. The objects in question are images, which can return new image objects as windows to their own data. If the original object was const, the new object must also be const. Also, I thought undefined behaviour only appeared if the const object was in const memory, which means it would need to be a compile-time const (which I think isn't possible in this case but I could be wrong) –  Dave Aug 10 '13 at 12:55
I'm failing to see why the members being const while the objects can be freely copied would not solve your problem. but its way late here, i should probably already be sawing logs. –  WhozCraig Aug 10 '13 at 12:58
@PetrBudnik: it might not call the constructor due to copy/move elision, but it still "uses" it according to a technical definition that's important to the standard and hence also important to the compiler. Basically, a copy/move must be available even if it's going to be elided. –  Steve Jessop Aug 10 '13 at 13:11
@Dave: this might not help you, but arguably if View is a view of some data, then a non-modifiable view of the data should be represented using a base class NonModifyingView of View, rather than using const View. Then you can return a non-const instance of NonModifyingView, and move that, and image.red().invert() is prevented by the fact that NonModifyingView simply doesn't have an invert function. –  Steve Jessop Aug 10 '13 at 13:14

1 Answer 1

You might do

Foo::Constant getConstFoo( void ) {
    return Foo::Constant( 3 );

where Foo::Constant is immutable

struct Foo {
    struct Constant
    Foo& operator=( Foo& ) = delete; // disallow assign
    Foo( int ) { }                   // some basic constructor
    Foo( const Foo& ) = delete;      // disallow copy
    // You might not use: Foo( Foo&& ) { }                 // allow move
share|improve this answer
I don't understand; how would you use this? It sounds similar to Steve Jessop's suggestion, but having the Constant struct inside Foo surely removes all possibility for inheritance. Unless this is intended to be used in an entirely different way and I missed something? –  Dave Aug 10 '13 at 13:40

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