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I know there is plenty of information about converting QString to char*, but I still need some clarification in this question.

Qt provides QTextCodecs to convert QString (which internally stores characters in unicode) to QByteArray, allowing me to retrieve char* which represents the string in some non-unicode encoding. But what should I do when I want to get a unicode QByteArray?

QTextCodec* codec = QTextCodec::codecForName("UTF-8");
QString qstr = codec->toUnicode("Юникод");
std::string stdstr(reinterpret_cast<const char*>(qstr.constData()), qstr.size() * 2 );  // * 2 since unicode character is twice longer than char
qDebug() << QString(reinterpret_cast<const QChar*>(stdstr.c_str()), stdstr.size() / 2); // same

The above code prints "Юникод" as I've expected. But I'd like to know if that is the right way to get to the unicode char* of the QString. In particular, reinterpret_casts and size arithmetics in this technique looks pretty ugly.

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4  
QString::toUTF8 –  ratchet freak Apr 3 at 13:56
    
@ratchetfreak you mean UTF8 and Unicode are equal? –  Oleg Andriyanov Apr 3 at 14:01
    
UTF8 is the byte sized unicode format, internally the QString uses UTF16, you could also grab the data() –  ratchet freak Apr 3 at 14:04
    
QString is already "юникодед". So simply call str.toStdWString(). std::string is not designed to store 16-bit characters. –  SaZ Apr 3 at 14:21
2  
"you mean UTF8 and Unicode are equal" No. Your use of the word Unicode is wrong. Unicode is not an encoding, it's a standard, so talking of a "Unicode std::string" doesn't mean anything. A string by itself can't be unicode compliant. An std::string will have a particular "character" type (usually either 8 or 16 bits wide), and it will have a particular encoding (UCS-2 or UTF-16 for 16 bit characters, usually). The big difference between UCS-2 and UTF-16 is that UCS-2 is fixed-width: one code point per "character". In UTF-16, there may be multiple "characters" per code point. –  Kuba Ober Apr 3 at 14:51

3 Answers 3

Use this:

QString Widen(const std::string &stdStr)
{
    return QString::fromUtf8(stdStr.data(), stdStr.size());
}

std::string Narrow(const QString &qtStr)
{
    QByteArray utf8 = qtStr.toUtf8();
    return std::string(utf8.data(), utf8.size());
}

In all cases you should have utf8 in std::string.

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You can get the QByteArray from a UTF-16 encoded QString using this:

QTextCodec *codec = QTextCodec::codecForName("UTF-16");
QTextEncoder *encoderWithoutBom = codec->makeEncoder( QTextCodec::IgnoreHeader );
QByteArray array  = encoderWithoutBom->fromUnicode( str );

This way you ignore the unicode byte order mark (BOM) at the beginning.

You can convert it to char * like:

int dataSize=array.size();
char * data= new char[dataSize];
for(int i=0;i<dataSize;i++)
{
    data[i]=array[i];
}

Or simply:

char *data = array.data();
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1  
There is no such thing as a "unicode byte array" - please stop using this term, it confuses everyone. Unicode is a standard, not an encoding. There's UTF-16 and UCS-2, and the latter is what QString is internally encoded as. UCS-2 is a subset of UTF-16 for code points 0-0xFFFF. Since a QString can't carry code points outside of that range, you don't need to do anything special to get UTF-16 out of a QString. Just use the string's constData(). –  Kuba Ober Apr 3 at 14:49
    
@KubaOber Using constData() also gets you the BOM at the begging which is a mess. Using the mentioned approach you can get the QByteArray related to string and also you can use different encoding options. –  Nejat Apr 3 at 15:40
    
Are you sure that QString stores the embedded BOM? –  Kuba Ober Apr 3 at 15:58
    
Yeah definitely. You can see stackoverflow.com/questions/3602548/… –  Nejat Apr 3 at 16:16
1  
In fact, I've just checked, and QString does not carry an embedded BOM. It'd be a waste of space. This code would dump out the BOM; it doesn't: QString str1(QStringLiteral("A")); const QChar * p = str1.constData(); while (p->unicode()) qDebug() << *p++; –  Kuba Ober Apr 3 at 17:36

You need the following input:

  1. Whether you want the 8-bit wide std::string or 16-bit wide std::wstring, or some other type.

  2. What encoding is desired in your target string.

Internally, QString stores UTF-16 encoded data, so any Unicode code point may be represented in one or two QChars.

Common cases:

  • Locally encoded 8-bit std::string (as in: system locale):

    std::string(str.toLocal8Bit().constData())
    
  • UTF-8 encoded 8-bit std::string:

    str.toStdString()
    

    This is equivalent to:

    std::string(str.toUtf8().constData())
    
  • UTF-16 or UCS-4 encoded std::wstring, 16- or 32 bits, respectively. The selection of 16- vs. 32-bit encoding is done by Qt to match the platform's implementation of std::wstring.

    str.toStdWString()
    
  • UTF-16 encoded 16-bit std::u16string:

    std::u16string(reinterpret_cast<char16_t*>(str.constData()))
    

    This encoding does not include byte order marks (BOMs).

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