Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

What is the most efficient way to convert a std::vector to a .NET List?

To give some context, I am wrapping an unmanaged C++ class with C++/CLI. The C++/CLI class holds a pointer to the C++ class and I have a wrapper for each public method.

One method returns a std::vector, so in my wrapper I was going to return the .NET class List. I.e.

// unmanaged class
class A
        std::vector<int> runList();

// managed class
public ref class A
        // the below is obviously extremely inefficient
        List<UInt32> MethodA()
            std::vector<unsigned int> runList = mpChannelNode->runList();
            std::vector<unsigned int>::iterator itr;

            List<UInt32> list = gcnew List<UInt32>();

            for (itr = runList.begin(); itr != runList.end(); itr++)

            return list;

        A* mpChannelNode;

How can I make this more efficient? Feel free to recommend a different return type for the .NET class. Lets assume I just need to get that vector into managed world efficiently in any shape or form.

share|improve this question
If you're just wrapping a vector<T>, why not implement IList<T> and proxy all of the operations to the vector? –  Gabe May 27 '11 at 1:01
Hi Gabe - could you put that into an answer? :) –  Seth May 27 '11 at 1:04

3 Answers 3

up vote 3 down vote accepted

If you're really that concerned about it, use unverifiable code instead:

List<unsigned>^ MethodA()
    std::vector<unsigned> const& runList = mpChannelNode->runList();
    array<unsigned>^ ret = gcnew array<unsigned>(runList.size());
    if (runList.size())
        pin_ptr<unsigned> dest = &ret[0];
        std::memcpy(dest, &runList[0], runList.size() * sizeof(unsigned));
    return gcnew List<unsigned>(ret);

That said, I'd be surprised if there was a noticeable difference either way...

share|improve this answer
+1 but won't work for std::vector<string>. –  Seth May 27 '11 at 1:33
@Seth : Correct, it won't, but neither will @Gabe's suggestion without running the risk of marshaling everything multiple times (which obviously will be worse than what you already have). Really, what you have right now is more-or-less ideal if you make @Marcel's suggested improvements (unless you want lazy marshaling). –  ildjarn May 27 '11 at 1:38
How does std::memcpy compare with using Marshal.Copy from the InteropServices namespace? Would Marshal.Copy be safer and as fast? –  Seth May 27 '11 at 3:29
@Seth : Marshal::Copy is implemented in terms of memcpy, so it couldn't be faster than memcpy and may be slightly (read: probably unnoticeably) slower since it does bounds-checking. The only real advantage it has is that your function won't me marked as unsafe in the IL metadata since you won't need pin_ptr, which may make consuming your class from other .NET languages easier. –  ildjarn May 27 '11 at 3:41
Thanks for your help! –  Seth May 27 '11 at 4:54

I am not familiar with C++-CLI but one small improvement you can make is to create your list with the right capacity from the beginning.

List<UInt32> list = gcnew List<UInt32>(runList.size());

Another improvement would be to pre-increment your C++ iterator instead of post-incrementing it because currently you create an extra object for every element that is discarded immediately.

share|improve this answer

Consider turning into the vector directly into an array .. the below will work and be valid, until you resize the vector.

vector vec(10); int *array = &vec[0];

Then, you should be able to treat that (I think -- VS not on machine) as a passed array to populate your list.

You should also create your list with a size that you expect to need -- adding one by one will be slow.

share|improve this answer
If mean to say that int* somehow implements IEnumerable<int>, or can otherwise be passed to List<>'s constructor, then no, that's incorrect. –  ildjarn May 27 '11 at 1:27

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.