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I've been using C++ for a long time and know very well about carefulness in allocating and deallocating memory, especially not forgetting to delete unused instances.

Now, I've just recently used boost and with a problem I am facing I'm forced to used smart pointers (specifically the shared_ptr) one. So, if I am going to use shared_ptr for this problem, should I use smart pointers to all my normal pointer codebase?

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isn't there a performance penalty using shared_ptr? – jcomeau_ictx Nov 23 '10 at 2:43
None that you'll be able to detect if you're asking that question – Terry Mahaffey Nov 23 '10 at 2:45
@Terry: That was worded perfectly. – GManNickG Nov 23 '10 at 2:47
There's a performance cost to anything that makes a run-time decision, as shared_ptr does. But I agree with Terry - for most purposes, the cost is trivial in this case. And whether it's a "penalty" or not must be considered relative to the cost of alternatives - you'd have to decide when to delete the instance some other way without it. – Steve314 Nov 23 '10 at 3:18

You should use smart pointers careful. They are not the silver bullet when considering memory management. Circular references are still an issue.

When making the class design, always think who has the ownership of an object (has the responsibility to destroy that object). Complement that with smart pointers, if necessary, but don't forget about the ownership.

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+1: this is probably the most sensible advice on using smart pointers I've ever heard. Also you shouldn't get tempted to new everything just because smart pointers are available. Use stack allocated objects whenever you can, and smart pointers to manage the rest. – André Caron Nov 23 '10 at 2:49
+1 for suggesting that ownership must be considered. It helps determine what memory-handling strategy to use (e.g. RAII vs. reference counting smart pointer) and how to go about implementing it. – In silico Nov 23 '10 at 2:53
I consider smart pointers indispensable. Not all smart pointers are ::boost::shared_ptr. They don't all do reference counting. Your comment about being careful and intentional with your ownership model is excellent advice. But smart pointers of some variety or another are invaluable for handling whichever ownership model you want for that particular bit of data. I do think ::boost::shared_ptr should be used carefully and sparingly. – Omnifarious Nov 23 '10 at 3:16
@Andre: I agree with you, if you can use stack allocated objects, do it. – Cătălin Pitiș Nov 23 '10 at 8:17
In my experience shared_ptr has helped tremendously. However, there is a class of problems where resource ownership cannot be solved. Think dependency inversion and inversion of control. I've made two attempts at this problem in C++ but I don't think it can be solved. – Daniel Lidström Nov 23 '10 at 12:40

Yes, you should greatly prefer smart pointers over bare pointers for almost everything. But that does not mean you should be using ::boost::shared_ptr for most of those cases. In fact I think you should use shared_ptr sparingly and carefully.

But for those pointers you don't use shared_ptr for you should be using ::std::auto_ptr or, if you have C++0x ::std::unique_ptr. And if they aren't appropriate, you should find a smart pointer type that is.

Now this isn't always the right answer, just almost always. Smart pointers are invaluable for tracking and freeing memory resources appropriately even in the face of exceptions or other such oddities of control flow.

There are cases in which you will need to either write your own smart pointer class or not use one. These cases are very rare, but they exist.

For example, using a smart pointer in your own smart pointer class is probably not the right thing to be doing. Pointing at stuff allocated in a C library would probable require a custom smart pointer that called free instead of delete. Maybe you want a stretchy buffer you can call realloc on and don't want to use a ::std::vector for some reason.

But generally, a smart pointer (though not usually ::boost::shared_ptr (or in C++0x ::std::shared_ptr)) is the right answer to your resource management problem.

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You should be more careful about recommending std::auto_ptr. Because of its strange semantics on copying - violating the normal expectations for how assignment behaves - it can be a source of nasty bugs. In fact, I find it more problematic by far than naked pointers. – Steve314 Nov 23 '10 at 3:14
@Steve314 - Your and my experiences differ in this regard. Though I do think C++0xs ::std::unique_ptr is a much better implementation and should be preferred. I find the compiler usually warns me when I'm doing something stupid with auto_ptr if I'm careful about const correctness and using const everywhere it makes sense. – Omnifarious Nov 23 '10 at 3:21
You should be using automatic (stack-allocated0 variables for almost everything. For the rest, there are smart pointers and reference. And then, there are a bunch of other uses for bare pointers. – André Caron Nov 23 '10 at 3:21
@Omnifarious - Most objects are either stack-allocated locals or stored in a container. IIRC, it was Stroustrup that first warned me that std::auto_ptr instances should never live in standard containers. That was all the warning I ever needed. std::auto_ptr obviously has a niche or it would never have been invented - but widespread use still seems wrong to me. – Steve314 Nov 23 '10 at 3:47
BTW - that reads like Stroustrup spoke to me personally - I'm referring to the book of course. – Steve314 Nov 23 '10 at 3:48

Yes. You should be using the Boost smart pointers for most everything if you have them available. Remember this, while you can and from your comments do use pointers effectively, the person/people that come after you may not. Using the smart pointers can and will (hopefully, can't guard against bad code) mitigate some of these issues.

I'd also recommend using scoped_ptr inside your classes even if your classes are designed well. It'll help guard against issues the next guy could/might/most likely will introduce when faced with a naked pointer. It'll encourage them to use them too, by example. The last thing you want is to have to track down a memory issue because someone forgot to initialize the pointer to NULL and it's passing the if statement check.

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And if you don't have them available, at least use some sort of smart pointer. – Eclipse Nov 23 '10 at 2:45
@Eclipse yes, RAII all the way. – wheaties Nov 23 '10 at 2:49
I would recommend using shared_ptr only when you specifically need it, and that should be rarely. But yes, some form of smart pointer, definitely. – Omnifarious Nov 23 '10 at 3:05
Hmmm - do you think std::map uses smart pointers to point to nodes in its data structure? Do you think the standard and Boost libraries provide the only data structures that are ever needed? If you answered no to both of these questions, you have a reason for using naked pointers. Obviously, coding your own container templates is an unusual thing, but it isn't unheard of. Even the standard libraries are reinventions of earlier libraries (e.g. in other languages) that did much the same thing - there can be good reasons to reinvent the wheel. – Steve314 Nov 23 '10 at 3:08
@wheaties: I don't understand that argument. Except for calling delete at the right moment automagically, they are still pointers. – André Caron Nov 23 '10 at 3:18

No. It depends on what you're doing.

  • Smart pointers have a performance overhead. In desktop applications, this is typically not a concern, but depending on what you do, it might be.
  • Smart pointers will not work right if you have reference cycles, i.e. A pointing to B and B pointing to A, or even something pointing to itself.
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They don't have a performance overhead. – Omnifarious Nov 23 '10 at 2:49
shared & weak ptr work fine in a cycle, what smart pointer are you referring to when you say it will not work – Greg Domjan Nov 23 '10 at 2:51
@Omnifarious - they don't have a big performance overhead, but they do have an overhead. For example, reference counted smart pointers have overheads for the counting. Insignificant for most purposes, but still an overhead. – Steve314 Nov 23 '10 at 3:10
@Steve314 - ::std::auto_ptr has no overhead whatsoever. So a blanket statement that smart pointers have a performance overhead is false. ::boost::shared_ptr does have a very small overhead, it's true, but that's not the only kind of smart pointer around. – Omnifarious Nov 23 '10 at 3:13
@Omnifarious - you made the blanket statement that smart pointers have no performance overhead, which is false. I could have been more careful with my wording, but my excuse is that std::auto_ptr isn't smart - in fact it's pretty stupid. – Steve314 Nov 23 '10 at 3:30

No you shouldn't be using smart pointers for everything. What you should do is whenever you type "new" is to ask yourself -

  • What is the lifetime of this object
  • Which object "owns" it
  • How is that object going to manage it's lifetime

Sometimes the answer to that is a smart pointer but more often than not it's simply the lazy answer "I can't be bothered to work out which object owns this pointer and what it's lifetime should be so I'll make it a shared_pointer"

The important question is "what is managing the lifetime of this object", the answer can be a smart pointer, but often it doesn't need to be,.

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