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Note: if you've followed my recent questions, you'll see that they're all about my Unicode library exercise in C -- as one of my first few serious projects in C, I'm having many problems, so I'm sorry if I'm asking too many questions about one thing.

Part of my library decodes UTF-8 encoded char pointers into raw unsigned code points. However, certain planes don't decode correctly. Let's take a look at the (relevant) code:

typedef struct string {
 unsigned long length;
 unsigned *data;
} string;

// really simple stuff

string *upush(string *s, unsigned c) {
 if (!s->length) s->data = (unsigned *) malloc((s->length = 1) * sizeof(unsigned));
 else   s->data = (unsigned *) realloc(s->data, ++s->length * sizeof(unsigned));
 s->data[s->length - 1] = c;
 return s;
}

// UTF-8 conversions

string ctou(char *old) {
 unsigned long i, byte = 0, cur = 0;
 string new;
 new.length = 0;
 for (i = 0; old[i]; i++)
  if (old[i] < 0x80) upush(&new, old[i]);
  else if (old[i] < 0xc0)
   if (!byte) {
    byte = cur = 0;
    continue;
   } else {
    cur |= (unsigned)(old[i] & 0x3f) << (6 * (--byte));
    if (!byte) upush(&new, cur), cur = 0;
   }
  else if (old[i] < 0xc2) continue;
  else if (old[i] < 0xe0) {
   cur = (unsigned)(old[i] & 0x1f) << 6;
   byte = 1;
  }
  else if (old[i] < 0xf0) {
   cur = (unsigned)(old[i] & 0xf) << 12;
   byte = 2;
  }
  else if (old[i] < 0xf5) {
   cur = (unsigned)(old[i] & 0x7) << 18;
   byte = 3;
  }
  else continue;
 return new;
}

All upush does, by the way, is pushes a code point onto the end of a string, reallocating memory as needed. ctou does the decoding work, and stores the number of bytes still needed in a sequence in byte, as well as the in-progress code point in cur.

The code all seems correct to me. Let's try decoding U+10ffff, which is f4 8f bf bd in UTF-8. Doing this:

long i;
string b = ctou("\xf4\x8f\xbf\xbd");
for (i = 0; i < b.length; i++)
 printf("%z ", b.data[i]);

should print out:

10ffff

but instead it prints out:

fffffff4 ffffff8f ffffffbf ffffffbd

which is basically the four bytes of UTF-8, with ffffff tacked on before it.

Any guidance as to what is wrong in my code?

share|improve this question
    
By the way, your question subject is misleading. The problem has nothing to do with high plane (non-BMP) chracters; it happens with any non-ascii chracter. It also really has nothing to do with UTF-8, but rather with basic C arithmetic. You do have a few bugs in your UTF-8 decoder too, the worst of which is that you will decode invalid overlong sequences. –  R.. Sep 24 '10 at 14:21
    
I've edited the title to improve the relevancy. I'd really appreciate it if you could let me know some of the other bugs you've spotted. –  Delan Azabani Sep 24 '10 at 14:24
2  
You're blocking the two-byte overlongs, but not longer overlongs eg. 0xE0,0x80,0xBC. You're also allowing codepoints over 0x10FFFF, surrogate code units (should not appear in UTF-8), and sequences of >=0xC0 byte followed by low-byte(s) followed by 0x80-0xBF byte. A while loop with distinct code/checking for each length-case might be easier. But really I'd use some existing library code to decode UTF-8 rather than rolling it yourself (as mis-decoded/invalid sequences can end up allowing filter evasion with security consequences). Also the upush implementation is pathologically inefficient. –  bobince Sep 24 '10 at 14:34
    
Wow, my code is a really crappy implementation! ;) -- I'd better get to work on these. However, on the subject of upush, if upush works with one code point only in itself, how can I improve efficiency? It does all it needs to do; realloc then stick it in. Also, I would use another library; I'm just writing this as an exercise for my developing C skills. –  Delan Azabani Sep 24 '10 at 14:37
1  
Aside from upush, the code as you have it is fairly fast... but it's easy to be fast when your implementation is wrong. :-) Think about how to make it fast once you fix the decoding of "overlong sequences" and surrogate codepoints. Also keep in mind that any UTF-8 decoder will be slow if it incurs lots of overhead per-character. High-performance code will operate on strings, but will also avoid setup and exit overhead in case it needs to be called on short strings/single characters. –  R.. Sep 27 '10 at 4:31

2 Answers 2

up vote 4 down vote accepted

The char type is allowed to be signed, and conversion to int and then unsigned (which is what happens implicitly when you convert directly to unsigned) shows the error:

#include <stdio.h>

int main() {
  char c = '\xF4';
  int i = c;
  unsigned n = i;
  printf("%X\n", n);
  n = c;
  printf("%X\n", n);
  return 0;
}

Prints:

FFFFFFF4
FFFFFFF4

Use unsigned char instead.

share|improve this answer
    
Thank you very much! Changing the prototype of ctou to this fixed it: string ctou(unsigned char *old); –  Delan Azabani Sep 24 '10 at 14:18

You've probably ignored the fact that char is a signed type on your platform. Always use:

  • unsigned char if you will be reading the actual values of bytes
  • signed char if you're using bytes as small signed integers
  • char for abstract strings where you don't care about the values except perhaps for 0.

By the way, your code is extremely inefficient. Instead of calling realloc over and over per-character, why not allocate sizeof(unsigned)*(strlen(old)+1) to begin with, then reduce the size at the end if it's too big? Of course this is only one of the many inefficiencies.

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