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I'm afraid that each existing question/answer in this area seems to be subtly different:

I have a shared_ptr<vector<Point>> profile which is looped using an iterator. I would like to preserve a shared_ptr<Point> outside the loop for various purposes, but am struggling with the syntax. Please can you advise?

Here is a basic example:

shared_ptr<Point> peak;
for (vector<Point>::iterator point=profile->begin(); point!=profile->end(); point++)
{
    ...
    peak = shared_ptr<Point>(*point); // fails
    ...
}

N.B. I suppose that using a plain reference/pointer to the Point would be simple enough, but I am trying to avoid this, particularly when the heap is involved. I also realise that I could use indexes in this case, but this would be less transferable between container classes.

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2 Answers 2

up vote 3 down vote accepted

What you need is shared_ptr<vector<shared_ptr<Point>>> if you want to safely pass around shared_ptr<Point>'s

The problem you have is that if your shared_ptr<vector<Point>> goes out of scope, any shared_ptr<Point> constructed from members of the vector will be pointing to invalid memory.

On the flip side, if your newly created shared_ptr<Point> went out of scope, you'd then be trying to deallocate memory managed by the vector which isn't a good thing!

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Thanks. Will shared_ptr<Point> not exist until the vector itself goes out of scope? –  mosi Mar 18 '13 at 14:50
    
I'd have to see the rest of your code to see the scopes. –  Nick Mar 18 '13 at 15:56
    
OK, I'll take care. Thanks for the advice. –  mosi Mar 19 '13 at 12:03
    
The point about trying to deallocate the vector's memory by creating a shared_ptr to one of its elements is a good one. Thanks! –  Najati Jan 5 '14 at 2:58

*point has type Point, not Point*.

But even if you took the address of that (via &*point) you couldn’t create a shared_ptr for it since the object’s lifetime has automatic storage, it cannot (and doesn’t need to) be managed by a shared_ptr.

As long as the original vector isn’t modified, getting a reference (or indeed a raw pointer) to the Point objects inside it is safe. Modification of the vector however may move its elements around and any references to them become invalid.

Finally I’m wondering why your vector is wrapped in a shared_ptr. That very rarely makes sense. Are you sure you need this?

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+1 for the shared_ptr<vector>> - was just about to query this! –  Nick Mar 18 '13 at 14:37
    
Yes, you're both right. This was an overkill and I'll remove it! –  mosi Mar 18 '13 at 14:47

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