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Simple data structures, for instance linked lists, where the 'next' pointer is a smart pointer. When the head node gets deleted, the smart pointer for 'next' kicks in and does a recursive delete. For a long list, this quickly blows the stack.

I have had to go back to replace these smart pointers with simple, raw pointers. Am I missing something here?

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'blows the stack'? can you elaborate please. –  Flexo Aug 20 '11 at 11:01
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Almost surely this is not the smart pointer's fault. Show us some code, there's bound to be a bug in the implementation. In any event, complete list deletion should be by iteration, not recursion, so it should take constant stack space. –  Kerrek SB Aug 20 '11 at 11:03
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@Kerrek: presumably, the smart pointer's destructor deletes the pointee, which will give recursion if the pointee contains another smart pointer. I don't see how the smart pointer could be implemented to avoid that. –  Mike Seymour Aug 20 '11 at 11:10
    
AH I think I see what you mean - the recursion is too deep for the size of a fixed size stack! –  Flexo Aug 20 '11 at 11:13
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It's a simple linked list of fixed size blocks. CompSci 101. I happened to load a VERY LARGE jpeg into it by mistake and my standard block size was too small, resulting in a very long list. However, it seems to have exposed a potential issue with using smart pointers in recursive data structures. –  Jay Aug 20 '11 at 12:44

2 Answers 2

up vote 5 down vote accepted

Assuming I've understood you right and both head and next are smart pointers you can avoid this by doing:

head = head->next;

Or equivalent. Your 'old' head will get deleted and the old second place item will get promoted to the head. All in one consistent change, with no deep recursion. The only pre-condition to this is that head is not NULL to begin with.

As Mike pointed out in the comment if the goal is to delete the whole list then you can repeat that within a loop.

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Yes, so you can delete the whole list non-recursively with while (head) head = head->next; –  Mike Seymour Aug 20 '11 at 11:08
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Don't forget to comment it, because someone will come and go WTF :) –  UncleBens Aug 20 '11 at 19:04
    
"Your 'old' head will get deleted and the old second place item will get promoted to the head. " - That statement, while reflective of what is happening, is an incredible simplification. Unless the casual reader is very well versed in both the language mechanics and smart-pointer functionality, this solution, while it works, is more magic than anything else. And if they are so-said familiar, they likely don't need it in the first place. A step-by-step of exactly what is happening during that simple head=head->next assignment would make this substantially clearer. –  WhozCraig Oct 30 '13 at 15:48

Smart pointers on the internals of a linked list class doesn't seem to buy you very much. Raw pointers seems perfectly reasonable to me. I think smart pointers are best used for less controlled situations where it would be easy to forget to delete something.

Mind you must have been a huge list to blow the stack, are you sure you didn't have a bug in your code?

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Smart pointers in the internals buy you might higher exception safety guarantees. For free in terms of labour and very little extra constant storage cost. That alone seems to be worth it to me. –  Flexo Aug 20 '11 at 11:17
    
Yes, it's a fair point. –  john Aug 20 '11 at 11:24
    
Well, I use a smart pointer to hold a newly created node before it gets attached to the list. But, once attached, it is the list node's destructor's responsibility. As you guys noted, I have to do manual processing in the destructor anyway to replace the automatic smart-pointer recursion with hand-coded iteration. Could you please elaborate on the exception safety issues. I thought that any unhandled exception in a destructor will kill the program anyway -- regardless of smart pointers. –  Jay Aug 20 '11 at 12:11
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It's more useful during creation/editing of the list than destruction, for ensuring that things do still get destroyed even when something goes awry. –  Flexo Aug 20 '11 at 12:40
    
I suspect that your std::list is implemented without smart pointers and is perfectly exception safe. E.g using try-catch-deallocate-rethrou to deal with failure of copying user's object; and that's a single function where something might go wrong. With smart pointer, you'd have to use a custom deallocator (that uses allocator) and release the smart pointer if everything goes right - not one bit less work. –  UncleBens Aug 20 '11 at 18:58

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