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How can I use std::shared_ptr for array of double? Additionally what are advantages/disadvantages of using shared_ptr.

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You don't use std::shared_ptr for a dynamically allocated array, it doesn't call the proper delete. You probably want std::vector<double>. –  birryree Mar 26 '12 at 16:52
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@birryree: Technically speaking, you could go for a std::shared_ptr<std::vector<double>> if the shared ownership semantics were important to you. Or Boost's shared_array. See this question for example: stackoverflow.com/questions/6796655/… –  Stuart Golodetz Mar 26 '12 at 16:56
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@StuartGolodetz - good point about the ownership semantics. piyush314 would have to know that shared_array is a Boost construct (not standard), and if he really, really wanted a raw allocated array, he could use a std::default_delete<T[]> argument for the pointer deleter, like this: std::shared_ptr<double> name(new double[size], std::default_delete<double[]>());. –  birryree Mar 26 '12 at 16:59
    
Indeed - I was just adding 'Boost's' there while you were writing that :) –  Stuart Golodetz Mar 26 '12 at 17:01
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2 Answers

up vote 8 down vote accepted

It depends on what you're after. If you just want a resizable array of doubles, go with

std::vector<double>

Example:

std::vector<double> v;
v.push_back(23.0);
std::cout << v[0];

If sharing the ownership of said array matters to you, use e.g.

std::shared_ptr<std::vector<double>>

Example:

std::shared_ptr<std::vector<double>> v1(new std::vector<double>);
v1->push_back(23.0);
std::shared_ptr<std::vector<double>> v2 = v1;
v2->push_back(9.0);
std::cout << (*v1)[1];

Alternatively, Boost has

boost::shared_array

which serves a similar purpose. See here:

http://www.boost.org/libs/smart_ptr/shared_array.htm

As far as a few advantages/disadvantages of shared_ptr go:

Pros

  • Automated shared resource deallocation based on reference counting - helps avoid memory leaks and other problems associated with things not getting deallocated when they should be
  • Can make it easier to write exception-safe code

Cons

  • Memory overhead to store the reference count can be significant for small objects
  • Performance can be worse than for raw pointers (but measure this)
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You can also provide an array deleter:

template class ArrayDeleter {
public:
    void operator () (T* d) const
    { delete [] d; }
};

int main ()
{
    std::shared_ptr array (new double [256], ArrayDeleter ());
}
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You could also just use a lambda, I think: std::shared_ptr<double> array(new double[256], [](double *d) { delete [] d; } );. –  Frerich Raabe Jul 19 '13 at 22:10
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