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.

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.

share|improve this question
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
"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.

share|improve this answer

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++)

Or simply:

char *data = array.data();
share|improve this answer
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
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):

  • UTF-8 encoded 8-bit std::string:


    This is equivalent to:

  • 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.

  • UTF-16 encoded 16-bit std::u16string:


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

share|improve this answer

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.