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How can I take an object-as-value result from a method call and place it on the heap?

For instacne:

The Qt QImage::scaledToWidth method http://doc.qt.nokia.com/4.7/qimage.html#scaledToWidth returns a copy of the QImage object.

Right now I'm doing:

QImage *new_img_on_heap = new QImage(old_imgage_on_heap->scaledToWidth(2000));

Is this the only way? Seems like it's going through the trouble of making a 3rd whole new object when I already have a perfrect good one on the stack.

The reason I want to put it on the heap is because the real QImage is large, and I want it to outlive the lifetime of the current method. I was intending to stuff a pointer to it in a field of my class.

I know that QImage has some sort of implicit data sharing, but I'm not exactly clear on how it works under the hood. Plus, I wanted to know a general solution should I ever need to use objects not as well designed as Qt's.

Thank you

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I think the copy to a new heap-allocated object is the right way (anyway a heap memory allocation needs to be made). I'm just wondering how C++ move would handle this behind the curtains. –  Clodéric Sep 27 '11 at 15:05
@Clodéric: If the type is movable, then it will call the move constructor rather than the copy constructor (the argument being a temporary). I would assume that the QImage object would be movable in a C++0x compatible version of the library (the image buffer is probably held in dynamic memory most probably) –  David Rodríguez - dribeas Sep 27 '11 at 15:20
@DavidRodríguez-dribeas I know that, I was just wondering how it worked under-the-hood to move an object between the heap and the stack (If it's possible without doing a copy - which I doubt). –  Clodéric Sep 27 '11 at 15:25
@Clodéric: It does not move the object, but rather the resources managed by the object. Imagine that the QImage contains a pointer to a byte array, then the move constructor could swap the pointers in the source and destination objects. There will still be 2 objects, but the contents of the source will be moved to the second object. The same approach can be manually handled (in some cases) in the C++03 by creating an empty object and using a hand tailored swap function. –  David Rodríguez - dribeas Sep 27 '11 at 15:29

3 Answers 3

up vote 7 down vote accepted

An object is identified by its address. If you want it at another address, you have to construct a new one; you can't move objects. (Even with C++11, the new “move” semantics don't actually move an object; they provide an optimized way of moving its value, if you know that you won't need the value from where you're moving it.)

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+1: It is very important to notice the difference from the object and the value, and the fact that move-constructor and move-assignment do not move the object, only the contents can be moved (and not always) –  David Rodríguez - dribeas Sep 27 '11 at 15:38

Firstly, you should prefer the stack to the heap in most cases.

Secondly, when you allocate objects on the heap you should wrap the raw pointer in some managed object which is on the stack. If for nothing else, do it for exception safety.

Thirdly, Qt objects usually do exactly that i.e. there's no advantage in writing new QImage or new QMap<int> etc.

Nevertheless the right way to move a non-heap object onto the heap is to say

new ObjectType (old_instance)

If you do this with a temporary object, such as

new ObjectType (create_object ())

then it will probably elide the extra copy (link broken for me -- cached)

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The decision of stack and heap (or more precisely automatic vs. dynamic storage) should be more related to object lifetime than to the sizes of the objects. If the QImage is to outlive the current context then you cannot have automatic storage duration in the current scope. –  David Rodríguez - dribeas Sep 27 '11 at 15:22
As of copy-elision, it will not take place in that particular situation. In particular if the destination object is not an object with automatic storage duration chances are that the copy cannot be elided. You can read on what goes under the curtains with copy elision here and here. The compiler can only elide the copies if it can use the same memory for the object and the temporary, the location of which is determined by the calling convention. –  David Rodríguez - dribeas Sep 27 '11 at 15:24
I agree completely about object lifetimes being more important, but a sufficiently large object must go on the heap or it will break the stack. I also agree that elision depends on the calling convention. However, there's nothing in my or the OP's example that will suppress it. –  spraff Sep 27 '11 at 15:31
Sufficiently large is something that is actually hard to identify for non-experienced programmers. Is a std::vector<int> containing 10 elements sufficiently large? what about 100.000.000 elements? Or does the number of elements in the vector not matter at all? What about a QImage from a 18M pixel camera, is that sufficiently large to have to use dynamic memory? Does the size of the stored image actually matter at all? –  David Rodríguez - dribeas Sep 27 '11 at 15:34
@spraff: I have gone back to basics and read the calling conventions, which is something I should have done a while ago. The calling convention for return by value in both 32 and 64 bit, Microsoft and GCC does not use a fixed location for the object (as I wrongly thought), but rather passes a pointer to the location of the object to be returned (unless it fits in the registers), and that means that the objects can be located anywhere. I had the false believe that the returned object (for large objects) had to be layed out in the stack. +1 –  David Rodríguez - dribeas Sep 27 '11 at 17:44

Since the method

QImage QImage::scaledToWidth ( int width, Qt::TransformationMode mode = Qt::FastTransformation ) const

does not return a QImage address (i.e. QImage& ....) than I think you are out of luck. You are stuck with a copy. Unless you want to recompile the QT libraries to change that function signature so that it does not return a copy.

What is so bad about having that object on the stack anyways?

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