std::auto_ptr to std::unique_ptr

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無奈伤痛
無奈伤痛 2020-11-28 00:46

With the new standard coming (and parts already available in some compilers), the new type std::unique_ptr is supposed to be a replacement for std::auto_p

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  • 2020-11-28 01:18

    You cannot do a global find/replace because you can copy an auto_ptr (with known consequences), but a unique_ptr can only be moved. Anything that looks like

    std::auto_ptr<int> p(new int);
    std::auto_ptr<int> p2 = p; 
    

    will have to become at least like this

    std::unique_ptr<int> p(new int);
    std::unique_ptr<int> p2 = std::move(p);
    

    As for other differences, unique_ptr can handle arrays correctly (it will call delete[], while auto_ptr will attempt to call delete.

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  • 2020-11-28 01:23

    Herb Sutter has a nice explanation on GotW #89:

    What’s the deal with auto_ptr? auto_ptr is most charitably characterized as a valiant attempt to create a unique_ptr before C++ had move semantics. auto_ptr is now deprecated, and should not be used in new code.

    If you have auto_ptr in an existing code base, when you get a chance try doing a global search-and-replace of auto_ptr to unique_ptr; the vast majority of uses will work the same, and it might expose (as a compile-time error) or fix (silently) a bug or two you didn't know you had.

    In other words, while a global search-and-replace may "break" your code temporarily, you should do it anyway: It may take some time to fix the compile errors, but will save you a lot more trouble in the long run.

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  • 2020-11-28 01:28

    AFAIK, unique_ptr is not a direct replacement. The major flaw that it fixes is the implicit transfer of ownership.

    std::auto_ptr<int> a(new int(10)), b;
    b = a; //implicitly transfers ownership
    
    std::unique_ptr<int> a(new int(10)), b;
    b = std::move(a); //ownership must be transferred explicitly
    

    On the other hand, unique_ptr will have completely new capabilities: they can be stored in containers.

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  • 2020-11-28 01:39

    std::auto_ptr and std::unique_ptr are incompatible in someways and a drop in replacement in others. So, no find/replace isn't good enough. However, after a find/replace working through the compile errors should fix everything except weird corner cases. Most of the compile errors will require adding a std::move.

    • Function scope variable:
      100% compatible, as long as you don't pass it by value to another function.
    • Return type:
      not 100% compatible but 99% compatible doesn't seem wrong.
    • Function parameter by value:
      100% compatible with one caveat, unique_ptrs must be passed through a std::move call. This one is simple as the compiler will complain if you don't get it right.
    • Function parameter by reference:
      100% compatible.
    • Class member variable:
      This one is tricky. std::auto_ptrs copy semantics are evil. If the class disallows copying then std::unique_ptr is a drop in replacement. However, if you tried to give the class reasonable copy semantics, you'll need to change the std::auto_ptr handling code. This is simple as the compiler will complain if you don't get it right. If you allowed copying of a class with a std::auto_ptr member without any special code, then shame on you and good luck.

    In summary, std::unique_ptr is an unbroken std::auto_ptr. It disallows at compile time behaviors that were often errors when using a std::auto_ptr. So if you used std::auto_ptr with the care it needed, switching to std::unique_ptr should be simple. If you relied on std::auto_ptr's odd behavior, then you need to refactor your code anyway.

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