Let assume I have a DataProcessor template class that holds a smart pointer to the processed data that has operator * and operator ->:

template <class DataPointer>
class DataProcessor

        //it is not clear how to implement the constructor
        //DataProcessor(DataPointer p) : pData(p) {};

        void Process() { /* do something with *pData */ };


        DataPointer pData;

How to implement the constructor to make DataProcessor work with both std::unique_ptr (the constructor should accept it by && and move it) and std::shared_ptr (the constructor should accept it by & and copy it)? Is it possible to have some kind of a uniform constructor?

Actually I have a class that holds a smart Win32 handle UniqueHandle and SharedHandle that have the similar semantics like std::unique_ptr and std::shared_ptr. So it is a general question on how to implement a scenario like this.

  • 2
    "std::shared_ptr (the constructor should accept it by & and copy it)?" Why should the constructor copy it? Why not take it by && and have the caller perform the copy? – Nicol Bolas Mar 20 at 18:58
  • @NicolBolas this adds one extra line of code, but probably it is better than having two separate classes like UniqueDataProcessor and SharedDataProcessor with different constructors taking && and &. – Alexey Starinsky Mar 20 at 19:05
  • It is impossible to take ownership of an object owned by a shared_ptr. So, unless DataPointer is actually also a shared_ptr, you have a lost case. – j6t Mar 20 at 19:07
  • 1
    @AlexeyStarinsky: "this adds one extra line of code" Nonsense: DataProcessor<shared_ptr<T>> dp(shared_ptr{sp}); Where sp is an appropriate shared_ptr (and using CTAD to avoid repeating the T). No extra line of code needed. – Nicol Bolas Mar 20 at 19:21
  • @NicolBolas at least I did not find a better solution. – Alexey Starinsky Mar 20 at 19:30

Your choices are essentially these:

  1. Take the parameter by value:

    DataProcessor(DataPointer p) : pData(std::move(p)) {}

    If DataPointer is move-only, then the user will have to call it through std::move, which will move-construct p, which is then used to move-construct pData. If it is copyable, then p will be copy/move constructed based on how the user passes the value. From there, it will move construct pData.

    Note that this version adds an additional move operation.

  2. Take the parameter by rvalue reference, always:

    DataProcessor(DataPointer &&p) : pData(std::move(p)) {}

    In this case, if DataPointer is not move-only, and the user wants to pass an lvalue, the user must explicitly copy the value into a temporary used to initialize p. That would look something like this:

    DataProcessor<shared_ptr<T>> dp(shared_ptr{sp});

    Where sp is an existing shared_ptr that you want to copy from. This does only one move when given an object to move from, but does a copy+move when copying.

  3. Write two functions, employing SFINAE to remove the copying version if DataPointer is non-copyable. This version has the advantage of doing no additional moves:

DataProcessor(DataPointer &&p) : pData(std::move(p)) {}
template<typename T = DataPointer>
DataProcessor(std::enable_if_t<std::is_copy_constructible_v<T>, const T&> p)
        : pData(p) {}

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