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A container of unique_ptr seems to make little sense: you cannot use it with initializer lists and I failed to iterate through the container (workarounds below). Am I misunderstanding something? Or when does it make sense to use unique_ptr and STL containers?

#include <memory>
#include <vector>

using namespace std;

struct Base { void go() { }  virtual ~Base() { } }; 
// virtual ~Base() = default; gives
// "declared virtual cannot be defaulted in the class body" why?

class Derived : public Base { };

int main() {

  //vector<unique_ptr<Base>> v1 = { new Derived, new Derived, new Derived };
  //vector<shared_ptr<Base>> v2 = { new Derived, new Derived, new Derived };
  vector<Base*> v3 = { new Derived, new Derived, new Derived };
  vector<shared_ptr<Base>> v4(v3.begin(), v3.end());
  vector<unique_ptr<Base>> v5(v3.begin(), v3.end());

  for (auto i : v5) { // works with v4
  return 0;

The following questions helped me find these workarounds:

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3 Answers 3

up vote 13 down vote accepted
for (auto i : v5) {

Should be

for (auto& i : v5) { // note 'auto&'

Else you'll try to copy the current element.

Also, you can't use an initializer list like that, because the constructors of std::unique_ptr and std::shared_ptr are marked explicit. You need to do something like this:

#include <iterator> // make_move_iterator, begin, end

template<class T>
std::unique_ptr<T> make_unique(){ // naive implementation
  return std::unique_ptr<T>(new T());

std::unique_ptr<Base> v1_init_arr[] = {
    make_unique<Derived>(), make_unique<Derived>(), make_unique<Derived>()

// these two are only for clarity
auto first = std::make_move_iterator(std::begin(v1_init_arr));
auto last = std::make_move_iterator(std::end(v1_init_arr));
std::vector<std::unique_ptr<Base>> v1(first, last);

std::vector<std::shared_ptr<Base>> v2 = {

And this is a Good Thing™, because otherwise you might leak memory (if one of the later constructors throws, the former ones aren't yet bound to the smart pointers). The tip-toeing for the unique_ptr is necessary, because initializer lists copy their arguments, and since unique_ptrs aren't copyable, you'd get a problem.

That said, I use a std::map<std::string, std::unique_ptr<LoaderBase>> for a dictionary of loaders in one of my projects.

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vector<unique_ptr<Base>> v1 = { make_unique<Derived>(), make_unique<Derived>(), make_unique<Derived>() }; <-- Did you test that? –  Benjamin Lindley Jan 6 '12 at 21:43
As @Benjamin alludes to, initializer lists make copies by definition, so they cannot be used with move-only objects. –  ildjarn Jan 6 '12 at 21:44
You can do it with an array though: unique_ptr<Base> v1[] = { make_unique<Derived>(), make_unique<Derived>(), make_unique<Derived>() }; –  Benjamin Lindley Jan 6 '12 at 21:52
@Xeo The syntax for v1 in the example code is hideous :( I was waiting for the C++Ox a lot but I might as well stick with C++98 and use the old syntax for constructing, it is just as hideous... I am missing the big breakthrough. –  Ali Jan 6 '12 at 22:13
@Xeo Yes, I get the safety part. I was expecting the syntax getting simpler with the extended initializer lists, hence my disappointment. –  Ali Jan 7 '12 at 10:25

You actually can iterate though the container without issues using std::unique_ptr<T> ... you just either need to access a reference (i.e., not a copy) of the unique pointer, or you need to actually use an iterator-type with the container. In your case that would be something like vector<unique_ptr<Base>>::iterator or vector<unique_ptr<Base>>::const_iterator.

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unique_ptr makes sense in STL containers when the container holds objects that can't be copied. Or if it's costly or simply incorrect to copy them.

You get the same functionality as your

vector<Base*> v3 = { new Derived, new Derived, new Derived };

But without the memory leaks that v3 is inviting.

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Or when you need polymorphic behavior. –  ildjarn Jan 6 '12 at 21:42
You can put uncopyable objects (such as unique_ptr) into C++11 containers; although some containers require that they are movable. –  Mike Seymour Jan 7 '12 at 2:07

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