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I have a std::vector of bytes (char), I'd like to do the equivalent of just "C-style casting" this vector to a vector which is of type wchar_t.

Obviously, what I really have to do is to copy the data, but the thing here is that I already have an UTF-16 byte stream on the left side, I just wanna move that over to the wchar_t vector so that I can use it. Ideally, I'd like to just swap the buffer, but I'm not sure how to do that in safe manner...

What's the C++ way of doing an as efficient as safe conversion copy operation allows?


I do store my UTF-16 strings as std::wstring or std::vector<wchar_t> but I have this memory buffer that I happen to know is UTF-16, and I need to copy it, somehow...

share|improve this question
What? You have UTF-16 data stored as char? Btw. the conversion from char to wchar_t is done using widen, but I guess, that's not what you want – Let_Me_Be Dec 6 '11 at 14:53… may answer it – parapura rajkumar Dec 6 '11 at 14:54
And to extend Let_Me_Be's comment: Why do you have UTF-16 data stored as char? – Griwes Dec 6 '11 at 14:56
@Let_Me_Be Makes it is so you don't have to worry about silly things like byte order O.o – Joe Dec 6 '11 at 14:56
@JohnLeidegren if the vector<char> 's content is utf-16 , then you can ideally pass it as a wchar_t pointer with &v[0] without issues, the real question i have is how did you get utf-16 packed into a vector char? Network code? – johnathon Dec 6 '11 at 14:58
up vote 9 down vote accepted

The most efficient (and sanest) way to do it is to not do it. Let your vector<char> own the data buffer, and simply create a pair of wchar_t pointers to use as iterators pointing into the vector.

std::vector<char> vec;
wchar_t* first = reinterpret_cast<wchar_t*>(&vec[0]);
wchar_t* last = reinterpret_cast<wchar_t*>(&vec[0] + vec.size());

Now you have an iterator pair that'll work just fine with all the standard library algorithms. And you didn't have to copy a single byte. :)

(Disclaimer: I'm assuming that the vector's size is divisible by sizeof(wchar_t). Otherwise you'll have to adjust the last pointer)

share|improve this answer
+1 for sanity and simplicity – johnathon Dec 6 '11 at 15:53
That's dead on, and then I can just use assign and that will copy the stuff, right? It's fine to copy it in my mind, I was just hoping for a swap trick. I mean, the internals of a std::vector are the same, I just wanna swap out the innards (like a reinterpret_cast), but this will do nicely. – John Leidegren Dec 6 '11 at 16:34
static_cast would do just fine. – Alexandre C. Dec 6 '11 at 16:40
@AlexandreC: I think static_cast would be undefined behavior. I also think it wouldn't work in practice, depending on if the vector stores a size or end-pointer. – Mooing Duck Dec 6 '11 at 17:06
@MooingDuck: static_cast is never more UB than reinterpret_cast and will work just as fine when casting between (non function) pointers. – Alexandre C. Dec 6 '11 at 17:16
std::vector<char> v1;
std::vector<wchar_t> v2;

const char * cv1 =;

const wchar_t * cv2 = static_cast<const wchar_t *>(cv1);
std::copy(cv2, cv2 + v1.size() / sizeof(wchar_t), std::back_inserter(v2));
share|improve this answer
std::vector<char> v1;
std::vector<wchar_t> v2;

wchar_t *begin = (wchar_t *) &v2.front();
wchar_t *end   = (wchar_t *) (&v2.back() + 1);

v1.assign(begin, end);

I haven't tested this, but I can't imagine that something like this wouldn't work... If you have endian issues, this would become quite a bit more complicated.

share|improve this answer
Use &v2.back() + 1 rather than end(), since end() returns an iterator. Confusingly, it might appear to work since the iterator happens to be a pointer, and then stop working later (on another implementation or with a debug version of vector). – Steve Jessop Dec 6 '11 at 16:58
@SteveJessop: That's a very good point. Thanks. – Bill Lynch Dec 6 '11 at 17:25

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