Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I'm writing an HTML parser in C, and am looking to correctly follow the W3C guidelines on parser implementation. One of the key points is that the parser operates on a stream of Unicode Code Points rather than bytes, which makes sense.

Basically, then, given a buffer of known character encoding (I will either be given an explicit input encoding, or will use the HTML5 prescan algorithm to make a good guess), what's the best way in C — ideally cross-platform, but sticking to UNIX is fine — to iterate over an equivalent sequence of Unicode Code Points?

Is alloc'ing a few reasonably-sized buffers and using iconv the way to go? Should I be looking at ICU? The macros like U16_NEXT seem to be well-suited to my task, but the ICU documentation is incredibly long-winded, and it's a little hard to see exactly how to glue things together.

share|improve this question
iconv seems like a good start. It's conceptually simple and widely available. – Kerrek SB Dec 20 '12 at 0:09
OK, I'll give iconv a try. Would you say it makes most sense to convert to UTF-32? Even though it's arguably a nearly-useless encoding, that would mean every 4 bytes would exactly represent a Unicode Code Point. – Matt Patenaude Dec 20 '12 at 0:23
Yes, indeed. UTF-32 is a perfectly fine encoding. – Kerrek SB Dec 20 '12 at 0:32
UCS-4/UTF-32 is fine. 1) it's the only fixed size encoding that covers all code points (2 bytes are just not enough). 2) for example glibc uses 4 byte (double word) representation for the wchar_t type anyway. 3) memory usually isn't problem these days. 5) fixed-size encoding has some speed and memory allocation advantages. – peterph Dec 20 '12 at 0:34
Personally I would suggest UTF-8, as UTF-32 is overkill for most HTML documents, that are primarily ASCII text. It will also simplify integration with other C libraries. – Michael Day Feb 15 '13 at 5:51

ICU is a good choice. I used it with C++ and liked it a lot. I am quite sure you get similar thought-through APIs in C as well.

Not totally the same but somewhat related might be this tutorial that explains how to perform streaming/incremental transliteration (the difficulty in this case is that the "cursor" may be inside a code point sometimes).

share|improve this answer

The following will decode a code point and return how much to increment the string by (how much was "chewed"). Note that xs_utf16 is an unsigned short. More info: http://sree.kotay.com/2006/12/unicode-is-pain-in.html

    xs_UTF_Max          = 0x0010FFFFUL,
    xs_UTF_Replace      = 0x0000FFFDUL,
    xs_UTF16_HalfBase   = 0x00010000UL,
    xs_UTF16_HighStart  = 0x0000D800UL,
    xs_UTF16_HighEnd    = 0x0000DBFFUL,
    xs_UTF16_LowStart   = 0x0000DC00UL,
    xs_UTF16_LowEnd     = 0x0000DFFFUL,
    xs_UTF16_MaxUCS2    = 0x0000FFFFUL,
    xs_UTF16_HalfMask   = 0x000003FFUL,
    xs_UTF16_HalfShift  = 10

int32 xs_UTF16Decode (uint32 &code, const xs_utf16* str, int32 len, bool strict)
          if (str==0||len==0)          {code=0; return 0;}

          uint32 c1 = str[0];

          //note: many implementations test from HighStart to HighEnd,
          //                 this may be a partial code point, and is incorrect(?)
          //                 trivial checking should exclude the WHOLE surrogate range
          if (c1<xs_UTF16_HighStart || c1>xs_UTF16_LowEnd)          return 1;
                             //really an error if we're starting in the low range

          //surrogate pair
          if (len<=1 || str[1]==0)                                  {code=xs_UTF_Replace; return strict ? 0 : 1;} //error
          uint32 c2 = str[1];
          code = ((c1-xs_UTF16_HighStart)<<xs_UTF16_HalfShift) + (c2-xs_UTF16_LowStart) + xs_UTF16_HalfBase;

          if (strict==false)                                        return 2;

          //check for errors
          if (c1>=xs_UTF16_LowStart && c1<=xs_UTF16_LowEnd)         {code=xs_UTF_Replace; return 0;} //error
          if (c2<xs_UTF16_LowStart  || c2>xs_UTF16_LowEnd)          {code=xs_UTF_Replace; return 0;} //error
          if (code>xs_UTF_Max)                                      {code=xs_UTF_Replace; return 0;} //error

          return 2;
share|improve this answer

Two things may be of interest to you:

  1. Markus Kuhn Unicode tutorials
  2. lib9, the utf library from Plan9, the Os which the inventors of UTF were working on.
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.