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I built a simple method like below

wchar_t buf[1024] = {};
void logDebugInfo(wchar_t* fmt, ...)
{  
    va_list args;
    va_start(args, fmt);
    vswprintf( buf, sizeof(buf), fmt, args);
    va_end(args);
}

jstring Java_com_example_hellojni_HelloJni_stringFromJNI( JNIEnv* env,
                                              jobject thiz )
{
    logDebugInfo(L"test %s, %d..", L"integer", 10);
    return (*env)->NewStringUTF(env, buf);
}

I got following warning

In function 'Java_com_example_hellojni_HelloJni_stringFromJNI':
warning: passing argument 1 of 'logDebugInfo' from incompatible pointer type
note: expected 'wchar_t *' but argument is of type 'unsigned int *'

And the resulting string was not correct. If I removed that L prefix before that formatting string, weird, it worked. But L prefixes were used everywhere in my legacy code.

First I know wchar_t is not portable enough and is very compiler-specific. The size of wchar_t I expected was supposed to be 16 bits. I read some other posts which said it's 32 bits for android but wchar.h, provided by official NDK, it said wchar_t == char, really?

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btw, I'm targeting android 1.6 and above –  fifth Apr 12 '11 at 5:43
    
Check this SO question: stackoverflow.com/questions/5008616/… –  Michael Burr Apr 12 '11 at 7:08
    
Already tried, fshort-wchar didn't work for me, no idea :( –  fifth Apr 12 '11 at 7:21
    
I tested size of wchar_t on android by using of sizeof, it was 1... –  fifth Apr 12 '11 at 10:14

2 Answers 2

From NDK r5b docs/STANDALONE-TOOLCHAIN.html:

5.2/ wchar_t support:
- - - - - - - - - - -

As documented, the Android platform did not really support wchar_t until
Android 2.3. What this means in practical terms is that:

  - If you target platform android-9 or higher, the size of wchar_t is
    4 bytes, and most wide-char functions are available in the C library
    (with the exception of multi-byte encoding/decoding functions and
     wsprintf/wsscanf).

  - If you target any prior API level, the size of wchar_t will be 1 byte
    and none of the wide-char functions will work anyway.

We recommend any developer to get rid of any dependencies on the wchar_t type
and switch to better representations. The support provided in Android is only
there to help you migrate existing code.

Since you are targeting Android 1.6, it looks as if wchar_t is not suitable for you.

Even in the Android 2.3 platform ("android-9"), there are still notes in a number of places, including wchar.h, which imply that wchar_t is one byte and none of the wide character library functions are implemented. This suggests that the implementation may still be dodgy, so I would be very cautious about using wchar_t on any Android version.

If you're looking for an alternative, I have found UTFCPP to be an excellent and very lightweight library.

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+1 for UTF8-CPP –  paleozogt Aug 23 '11 at 18:42

This is a bit old, but I've hit this while searching for a solution.
It seems that the NDK (r8d for me) is still not supporting wsprintf: see issue and code.

In my case I am using libjson (considering switching to yajl) for iOS/Android shared native code.
Until I'll switch libraries, my workaround for NDK is this:

double value = 0.5; // for example
std::wstringstream wss;
wss << value;
return json_string(wss.str());

I've read that streams are slower than the C functions, and if you need a pure C (and not C++) solution it doesn't help, but maybe someone will find this useful.

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