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I have an application that is supposed to deal with all kinds of characters and at some point display information about them. I use Qt and its inherent Unicode support in QChar, QString etc.

Now I need the code point of a QChar in order to look up some data in http://unicode.org/Public/UNIDATA/UnicodeData.txt, but QChar's unicode() method only returns a ushort (unsigned short), which usually is a number from 0 to 65535 (or 0xFFFF). There are characters with code points > 0xFFFF, so how do I get these? Is there some trick I am missing or is this currently not supported by Qt/QChar?

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Btw, QString docs start with "The QString class provides a Unicode character string. QString stores a string of 16-bit QChars, where each QChar corresponds one Unicode 4.0 character. (Unicode characters with code values above 65535 are stored using surrogate pairs, i.e., two consecutive QChars.)" –  mlvljr Jun 7 '12 at 10:59

2 Answers 2

up vote 3 down vote accepted

Each QChar is a UTF-16 value, not a complete Unicode codepoint. Therefore, non-BMP characters consist of two QChar surrogate pairs.

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Damn, this complicates things. But thanks. –  Sebastian Negraszus Aug 7 '11 at 13:34
    
@SebastianNegraszus So, how did you solve the thing? –  mlvljr Jun 7 '12 at 10:52

QChar, QString and Unicode characters above U+FFFF (so-called non-BMP characters)

QChar only supports Unicode characters up to U+FFFF. QString supports characters above U+FFFF by using two consecutive QChars (that is, UTF-16 encoding). However, the QString API doesn't help you much if you need to process characters with code points above U+FFFF. As an example, a QString instance which contains the single character U+131F6 will return a size of 2, not 1.

I've opened this bug report at the Qt project about this problem some time ago. There however doesn't seem to be much progress about it, despite a lively debate.

Solution

I've thus implemented some QUtfString, QUtfChar, QUtfRegExp and QUtfStringList classes myself in the meantime. Those wrapper classes provide the exact same APIs as their corresponding Qt equivalents but support easy handling of all characters defined by the Unicode standard. For details about the implementation, usage and runtime complexity discussion of those classes please see the extensive API documentation within the headers of the code.

You can download this LGPL-licensed code from my attachment to the Qt bug report at https://bugreports.qt-project.org/secure/attachment/31415/QUtfString.zip

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