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If I'm developing for Windows and some WinAPI functions require me to use LPWSTR as string data type. Is it okay to use C++11's u16string in my library? Are those two data types the same thing?

It looks more like LPWSTR is wchar_t, but nobody likes wchar_t anymore...

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"nobody likes wchar_t anymore..." Nobody on Windows has a problem with wchar_t, it's the people that have 4-byte wchar_t that don't like it. :-P – ildjarn Aug 24 '12 at 1:38
I don't like wchar_t. I have it 16 bytes. It is still less than a char. I think you should not use char16_t or wchar_t. utf8everywhere.org summarizes my view. – Pavel Radzivilovsky Aug 24 '12 at 21:16
@ildjarn: I am on Windows and I have a problem with wchar_t. Narrow char + UTF-8 is the way I go! – ybungalobill Aug 30 '12 at 17:59
up vote 1 down vote accepted

The C++11 char16_t type is distinct from wchar_t. In theory you could reinterpret_cast your way between char16_t* and Windows’ wchar_t* (Windows’ wchar_t is 16 bits). In practice, however, Visual C++ 10.0 – and I think also Visual C++ 11.0 – lacks support for Unicode literals like u'A' or u"A".

Summing up (I’ve found that on SO one should better make all conclusions explicit):

  • “Is it okay to use C++11's u16string in my library?”
    Certainly, but not as direct plug-in replacements for wchar_t strings, and as of 2012 currently problematic (due to lack of support for literals) if you plan on supporting Visual C++.

  • “Are those two data types the same thing?”

  • “nobody likes wchar_t anymore...”
    That’s certainly not the case.

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So in the end it is best to stick on with TCHAR (or WCHAR if you dont support Win 9.x anymore) and do not use the new C++11 Unicode support at all? – D.R. Aug 24 '12 at 14:24
@user1400869: I recommend using just wchar_t. Among other advantages it's less of an eyesore in the code. But it is technically possible to define a platform-dependent encoding value type, which would be mapped to wchar_t in Windows. Using such a type would in my opinion more in the spirit of C++ (consider other platform-dependent types such as int). But it is a heck of a lot of work to establish the necessary infrastructure. So, wchar_t. :-) – Cheers and hth. - Alf Aug 25 '12 at 0:41

wchar_t and char16_t are distinct types, so it is not possible to use u16string.c_str() as a LPWSTR (without a reinterpret_cast that would cause UB).

If you are confident that on your platform wchar_t is encoded as UTF-16, you can copy the data across:

std::wstring my_wstring(my_u16string.begin(), my_u16string.end());

and then use my_wstring.c_str() as LPWSTR. In a function call, you can use a temporary:

SomeWindowsAPI(std::wstring(my_u16string.begin(), my_u16string.end()).c_str());
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There is no need to copy when you're in platform-specific land. – Cheers and hth. - Alf Aug 24 '12 at 10:33
@Cheersandhth.-Alf they're distinct types though, so the implementation is not required to ensure that ensure that reading via the cast pointer has the same value as reading via the original pointer. – ecatmur Aug 24 '12 at 13:08
the compiler is part of the platform. if you use a compiler that has a bunch of problems in this regard (read: g++), then, you have to use compiler-specific solutions to the compiler's problems. that's all. the standard doesn't have platform-specific guarantees. compilers do. – Cheers and hth. - Alf Aug 24 '12 at 15:02
I'm not sure I understand. Why would you write g++-specific code when you could just write conformant code in the first place that can be used with any compiler (incl. Intel, clang, etc.)? – ecatmur Aug 24 '12 at 15:09
@RemyLebeau I agree that that would work, but it is undefined behaviour (pointer aliasing) and a sufficiently smart optimiser could break it. – ecatmur Aug 24 '12 at 18:25

wchar_t on Windows is 16-bit, and LPWSTR values are UTF-16 encoded, so yes, you can use char16_t and u16string values when interacting with the API, though you will have to typecast to keep the compiler happy.

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And technically that typecast will cause UB, so I'd say the answer here is 'no', not 'yes'. – ildjarn Aug 24 '12 at 1:40
@ildjarn: for Windows-specific code the cast is defined by the compiler. this sort of thing is what reinterpret_cast is for. – Cheers and hth. - Alf Aug 24 '12 at 10:34
@RemyLebeau It's the strict aliasing rule. You're not allowed to access the value of an object through an object of a different type (with some exceptions such as char). See [basic.lval] 3.10/10. "If a program attempts to access the stored value of an object through a glvalue of other than one of the following types the behavior is undefined:" – bames53 Aug 24 '12 at 18:21
@Cheersandhth.-Alf I don't see why casting between unrelated integral types of the same size wouldn't violate strict aliasing. Which of those bullet points does that fall under? Also I'm not sure to which behavior of g++ you're referring. – bames53 Aug 25 '12 at 0:01
@Cheersandhth.-Alf wchar_t doesn't have any corresponding signed or unsigned types (corresponding types are discussed in § 3.9.1). I believe it is technically undefined behavior to access wchar_t objects through a short typed glvalue. Just because something works doesn't mean it's actually well defined. For example accessing an array of n ints as an array of 2n shorts is definitely UB under strict aliasing, but it will work just fine on many implementations. – bames53 Aug 25 '12 at 1:19

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