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After reading Jossutis' explanation on auto_ptr from his STL book I've got a strong impression that whatever task I would try to use it in I'd 100% fail becuase of one of many auto_ptr's pitfalls.

My question is: are there any real life tasks where auto_ptr is really usefull and does fit there well?

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Note that the article is almost 11 years old, and we know better alternatives these days. –  AraK Dec 29 '10 at 12:53
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I wouldn't recommend that article. Not only because it's old, but also it has errors: Pimpl example won't work. –  Gene Bushuyev Dec 29 '10 at 15:51
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4 Answers

up vote 13 down vote accepted

Clearly, auto_ptr looses against unique_ptr.

Now, in a 'strict C++03 without boost' world, I use auto_ptr quite often, most notably :

  • For 'factory member functions' which return a dynamically allocated instance of a given type : I like the fact that using std::auto_ptr in the return type explicits that the object must be deleted
  • In functions which allocate an object before attempting to insert it in a container afterwards : for example in order to release() only if std::map<>::insert returns that insertion succeeded
  • In a thread procedure which pops elements from a message queue, I like storing the pop'ed element in a const std::auto_ptr to make it clear that the message will be destroyed no matter what.
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+1 because you "like" make your intent clear –  Julien-L Dec 29 '10 at 13:05
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I fail to see the point of "without boost". The smart pointers are a header-only library, so it's not like you have to link against anything. You could just copy&paste the code from boost ... –  etarion Dec 29 '10 at 13:15
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@etarion: It's still a maintenance overhead. Which version of boost? Who's responsible for monitoring for updates? Do you need to review the code because it's not part of the implementation. In some environments using code that is not part of the implementation always implies a large management overhead. –  Charles Bailey Dec 29 '10 at 13:20
    
@etarion: actually, I added this to prevent comments stating that boost::scoped_ptr is more appropriate than std::auto_ptr in some of the cases I've listed (which would be true) :-) But on a side note, have you actually tried to copy boost/shared_ptr.hpp only ? It's really not that easy. –  icecrime Dec 29 '10 at 13:22
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+1 because there are many shops that have legitimate reasons for not using Boost. I work in such a shop. See @Charles' comment for some of the legitimate reasons. –  John Dibling Dec 29 '10 at 16:27
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I would say it can be used, but it is not the best option.

First, it is a matter of year or less and auto_ptr is officially deprecated. Second, there is a superior alternative: unique_ptr. Dr. Stroustrup once said about unique_ptr:

“What auto_ptr should have been” (but that we couldn't write in C++98)

So unless you don't have the choice, auto_ptr is not a good choice. Mainly, because most C++ compilers these days implement move semantics and provide unique_ptr.

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Yep -- you're only screwed into this if you need to support Windows earlier than XP SP2. –  Billy ONeal Dec 29 '10 at 14:30
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It may not be the best smart_pointer, but it is still a better choice than a RAW pointer with no ownership systematic. Of course unique_ptr is a clear step forward. –  Loki Astari Dec 29 '10 at 18:48
    
@Martin York +1 Maybe because I am still a student, I don't think about dependencies in a realistic way. I agree that using auto_ptr is better than dealing with raw pointers directly. –  AraK Dec 30 '10 at 0:44
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In simple scenarios when you need to temporarily control a heap-allocated object auto_ptr can be used without problems. For example if you need to conditionally create an object that will be used only within one function you can't allocate it on stack and auto_ptr lets you not care of the object lifetime should an exception occur.

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I use std::auto_ptr moderately often, to ensure exception safety. That is, to prevent a memory leak in the event of part of a method throwing an exception.

For example:

Foo &Container::addFoo(
   const std::string &name
   )
{
  // The post conditions of the method require that the new Foo
  // has been added to this container, but the addition method
  // may throw exceptiona
  std::auto_ptr< Foo > foo(new Foo(name));

  foo->twiddle();// may throw
  this->addFoo(*foo);// record reference. May throw

  return *foo.release();
}

Edited: clarified that this->addFoo(*foo) records a reference.

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I'm sure I wouldn't return a reference to something that I expected a client to deallocate. Why not return the auto_ptr by value to signal the transfer of ownership? That's one of auto_ptr's designed usages. –  Charles Bailey Dec 29 '10 at 12:58
    
In this case the Container pbject retains ownership of the Foo obkect. –  Raedwald Dec 29 '10 at 13:35
    
How? foo is constructed locally and not passed to any other function (other than the member function twiddle). From the code it looks like the caller is left with the only reference to it. –  Charles Bailey Dec 29 '10 at 13:42
    
this->addFoo(*file) records the reference. –  Raedwald Dec 29 '10 at 14:00
    
Again, how? This line appears to have nothing to do with foo. Edit: Ah, did you mean addFoo(*foo)? –  Charles Bailey Dec 29 '10 at 14:07
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