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I have a double array allocated by pointer to pointer.

  // pointer to pointer
  int **x = new int *[5];   // allocation
  for (i=0; i<5; i++){
      x[i] = new int[2];

  for (i=0; i<5; i++){      // assignment
      for (j=0; j<2; j++){
          x[i][j] = i+j;

  for (i=0; i<5; i++)   // deallocation
      delete x[i];
  delete x;

I am trying to do this using unique_ptr:

std::unique_ptr<std::unique_ptr<int>[]> a(new std::unique_ptr<int>[5]);
  for (i=0; i<5; i++)
      a[i] = new int[2];

but kept getting an error saying that no operator = matches these operands. What I am doing wrong here?

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4 Answers 4

You cannot assign a int* to a std::unique_ptr<int[]>, that is the cause for your error. The correct code is

      a[i] = std::unique_ptr<int[]>(new int[2]);

However, piokuc is correct, that it is highly unusual to use unique_ptr for arrays, as that's what std::vector and std::array are for, depending on if the size is known ahead of time.

//make a 5x2 dynamic jagged array, 100% resizable any time
std::vector<std::vector<int>> container1(5, std::vector<int>(2)); 
//make a 5x2 dynamic rectangular array, can resize the 5 but not the 2
std::vector<std::array<2, int>> container1(5); 
//make a 5x2 automatic array, can't resize the 2 or 5 but is _really fast_.
std::array<5, std::array<2, int>> container;

All of these can be initialized and used just the same as the code you already had, except they're easier to construct, and you don't have to destroy them.

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Of course, std::unique_ptr<int>(new int[2]); will have the wrong deleter -- that should be std::unique_ptr<int[]>(new int[2]);. Preemptive +1 assuming you'll fix that. ;-] –  ildjarn Mar 20 '12 at 23:26
@ildjarn: I've never used unique_ptr of arrays, I'm fuzzy on the syntax. Thanks! –  Mooing Duck Mar 20 '12 at 23:31
Thank you for your inputs! –  Evan Mar 21 '12 at 14:46
@Evan: Be sure to upvote any answers you found helpful (with the up arrow on the left), and mark one as the "correct" answer (with the check-mark just under the arrows). –  Mooing Duck Apr 17 '12 at 5:34

Your code is effectively manipulating an array of arrays of int.

In C++ you would normally want to implement it as:

std::vector<std::vector<int> > x;

This is not a good case for unique_ptr. Also, you should not need to use pointers to unique_ptr and allocate unique_ptr objects dynamically. The whole point of unique_ptr is to eliminate usage of pointers and to provide automatic allocation and deallocation of objects.

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Thank you for your inputs. The way I understand unique_ptr is that it ensures that the instance it points to only has 1 reference. So using unique_ptr to point to an unique_ptr to create a matrix should be fine to use unique_ptr, given that there won't be another reference to the instance. Also, I don't understand the reason behind the last sentence. Thanks. –  Evan Mar 21 '12 at 14:15
any RAII class should offer that same unique guarantee. Most C++ classes are RAII. So you should use the right tool for the job. vector and array should be preferred to unique_ptr here. –  Mooing Duck Mar 21 '12 at 15:14
the reason for unique ptrs is mostly to hold dynamically allocated single objects. I can't immediately think of a reason to store an array in a unique_ptr. –  Mooing Duck Mar 21 '12 at 15:16
There are some good use cases for it (surely!) since it is catered for specifically within the standard: the primary template unique_ptr< T > and specialisation unique_ptr< T[] >. I'm guessing it's not just for completeness since there is no such specialisation for shared_ptr. –  boycy Jun 26 '12 at 13:05
for (i=0; i<5; i++)   // deallocation
      delete x[i];
  delete x;


delete [] x[i];
delete [] x;

// yo

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The only reasons I can think of to use std::unique_ptr (or say boost::scoped_array) over std::vector for holding arrays are usually not applicable...

1) it saves 1 or 2 pointers worth of memory, depending on if you know what the size of all the arrays is [irrelevant unless you have a massive number of very small arrays]

2) in case you are just passing the array into some function that expects a C style array or raw pointer, it may feel like a more natural fit. std::vector IS guaranteed to be on sequential storage though, so passing (a.empty() ? nullptr : &a[0], a.size()) into such a function is 100% legit as well.

3) standard containers in MSVC debug mode are "checked" by default and very slow, which might be annoying when doing scientific programming on large datasets.

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An advantage of unique_ptr<int[]> over vector<int> is that you can avoid initialization, the cost of which may be significant in some cases. Ref stackoverflow.com/questions/96579/… and stackoverflow.com/questions/7546620/… –  goertzenator Aug 27 '13 at 14:29

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