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I have a structure that has a unique_ptr inside. I then have a vector of this structure. If I try to resize (or use reserve on) the vector, I get compilation errors. Below is a stripped-down example that still exhibits the problem.

struct Test
    unique_ptr<int> pValue;

void test()
    // this doesn't compile
    vector<Test> testVector;

    // this also doesn't compile

    // this, of course, compiles
    vector<unique_ptr<int>> testVector2;

The errors I get are complaints about accessing private members of unique_ptr (the assignment operators). The compiler is trying to dynamically construct Test &Test::operator =(const Test &) and Test::Test(const Test &). I don't see why a resize operation would need to call either of these functions (why doesn't it just call the default constructor if it needs to?). Both of them present problems because it isn't possible to make either with unique_ptr due to the const.

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up vote 6 down vote accepted

I hate to interrupt this conversation you're having with yourself. :-)

But the answer is that VS2010 does not yet fully implement the C++11 spec (which would require a bit of time travel). Test should have a defaulted noexcept move constructor that calls the unique_ptr move constructor. VS2010 does not implement this implicit Test move constructor. If it did, your complete example would compile and run as expected. vector will use noexcept move constructors to move things around when it needs to.

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I appreciate the interruption! :-) I never would have guessed that the problem was that V10 (and now VC11) do not implement noexcept. – dsmtoday Apr 15 '12 at 4:12

(another case where writing out and posting the question led to the answer)

The answer, of course, is that unique_ptr<> doesn't have copy semantics. Even so, I was able to use the above arrangement right up until I needed to call resize(). What I didn't think about is that resize() potentially has to move the block and the items within to another memory block. That's when the copying happens. Even though it is only extremely temporary, it still violates the uniqueness of unique_ptr<> during the copy.

What further confused me is that since unique_ptr<> doesn't have copy semantics, vector<unique_ptr<>> shouldn't work either. But the answer must be that a template specialization has been written for this case.

I could probably write a template specialization for vector<Test> as well that would avoid the lazy copying the vector class does by default, and thus avoid the above compiler errors. But my usage of this struct does not need performance, so instead making it use shared_ptr<> with its copy semantics accomplishes everything I need.

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