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I'm seeing some code that uses unique_ptr in some weird ways, i'm not sure if it is even legal, although it seems to compile fine on g++ with -std=c++0x

#include <memory>
#include <boost/unordered_map.hpp>

typedef std::unique_ptr< std::string > str_ptr_t;

typedef boost::unordered_map< int , str_ptr_t > map_t;

str_ptr_t& get_ptr_value(map_t& map, int key)
   return map[key];

int main()
  map_t map;
  str_ptr_t& ref_to_value_of_0 = get_ptr_value(map, 0);
  map[0] = std::move(ref_to_value_of_0);

briefly explained, the map value type is a unique_ptr< std::string >. I initialise a reference to the value of key = 0. I then proceed to move the content of that reference to the same instance value, so basically the unique_ptr is being moved onto itself. This seems that to avoid creating many instances of the pointed object, it is attempted to reuse the existing entry instance if one already exists, and then add it again. In reality the assignment is hidden inside a store interface, and the reference is returned from a get interface, but the overall sequence can be summarized in the code i show above

Besides of being a bit weird, is this valid usage of unique_ptr?

share|improve this question
Looks fine to me (except the last line, which does nothing). Beware however if you're on any Unix-like OS, since _t types are reserved by POSIX. – Alexandre C. Jan 18 '13 at 8:17
There are two empty statements/declarations at namespace scope. The two semicolons after the closing curlies of the two functions are wrong. – Ulrich Eckhardt Jan 18 '13 at 18:34
up vote 4 down vote accepted

The move assignment is defined in terms of reset and release, and so it's essentially doing this:


If you work out how this is evaluated you will find it to be a safe "no-op". It releases the owned pointer, frees a null, then sets its pointer back to original value.

I don't really understand why you are doing that though.

share|improve this answer
I think this is not equivalent, because it's a move assignment, not move constructor. – Seth Carnegie Jan 18 '13 at 6:41
@SethCarnegie I know. I wrote the answer for move assignment. – Pubby Jan 18 '13 at 6:41
But then, the move assignment op assumes they are managing two different pointers, it will give the dying one the pointer it owns, and let it deallocate it, no? Unless it is specially written to handle self-move. – Seth Carnegie Jan 18 '13 at 6:42
@SethCarnegie work out the steps of the evaluation in your head. First it releases and sets to null, then it frees itself (which is null), then it sets back to original value. – Pubby Jan 18 '13 at 6:43
Oh, I missed the line where you said that the standard defines it this way, that makes all the difference. – Seth Carnegie Jan 18 '13 at 6:45

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