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I have a part of my Unicode library that decodes UTF-16 into raw Unicode code points. However, it isn't working as expected.

Here's the relevant part of the code (omitting UTF-8 and string manipulation stuff):

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

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;

typedef struct string16 {
    unsigned long length;
    unsigned short *data;
} string16;

string u16tou(string16 old) {
    unsigned long i, cur = 0, need = 0;
    string new;
    new.length = 0;
    for (i = 0; i < old.length; i++)
        if ([i] < 0xd800 ||[i] > 0xdfff) upush(&new,[i]);
            if ([i] > 0xdbff && !need) {
                cur = 0; continue;
            } else if ([i] < 0xdc00) {
                need = 1;
                cur = ([i] & 0x3ff) << 10;
                printf("cur 1: %lx\n", cur);
            } else if ([i] > 0xdbff) {
                cur |=[i] & 0x3ff;
                upush(&new, cur);
                printf("cur 2: %lx\n", cur);
                cur = need = 0;
    return new;

How does it work?

string is a struct that holds 32-bit values, and string16 is for 16-bit values like UTF-16. All upush does is add a full Unicode code point to a string, reallocating memory as needed.

u16tou is the part that I'm focusing on. It loops through the string16, passing non-surrogate values through as normal, and converting surrogate pairs into full code points. Misplaced surrogates are ignored.

The first surrogate in a pair has its lowest 10 bits shifted 10 bits to the left, resulting in it forming the high 10 bits of the final code point. The other surrogate has its lowest 10 bits added to the final, and then it is appended to the string.

The problem?

Let's try the highest code point, shall we?

U+10FFFD, the last valid Unicode code point, is encoded as 0xDBFF 0xDFFD in UTF-16. Let's try decoding that.

string16 b;
b.length = 2; = (unsigned short *) malloc(2 * sizeof(unsigned short));[0] = 0xdbff;[1] = 0xdffd;
string a = u16tou(b);

Using the utoc (not shown; I know it's working (see below)) function to convert it back to a UTF-8 char * for printing, I can see in my terminal that I'm getting U+0FFFFD, not U+10FFFD as a result.

In the calculator

Doing all the conversions manually in gcalctool results in the same, wrong answer. So my syntax itself isn't wrong, but the algorithm is. The algorithm seems right to me though, and yet it's ending in the wrong answer.

What am I doing wrong?

share|improve this question
up vote 5 down vote accepted

You need to add on 0x10000 when decoding the surrogate pair; to quote rfc 2781, the step you're missing is number 5:

    1) If W1 < 0xD800 or W1 > 0xDFFF, the character value U is the value
       of W1. Terminate.

    2) Determine if W1 is between 0xD800 and 0xDBFF. If not, the sequence
       is in error and no valid character can be obtained using W1.

    3) If there is no W2 (that is, the sequence ends with W1), or if W2
       is not between 0xDC00 and 0xDFFF, the sequence is in error.

    4) Construct a 20-bit unsigned integer U', taking the 10 low-order
       bits of W1 as its 10 high-order bits and the 10 low-order bits of
       W2 as its 10 low-order bits.

    5) Add 0x10000 to U' to obtain the character value U. Terminate.

ie. one fix would be to add an extra line after your first read:

cur = ([i] & 0x3ff) << 10;
cur += 0x10000;
share|improve this answer
Wow, thanks! A simple missing step added in, and my UTF-16 decoder works! – Delan Azabani Sep 24 '10 at 13:20
No problem, glad to hear it works now. Thanks for fixing my typo :) – JosephH Sep 24 '10 at 13:28

You seem to be missing an offset of 0x10000.

According to this WIKI page, UTF-16 surrogate pairs are constructed like this:

UTF-16 represents non-BMP characters (U+10000 through U+10FFFF) using two code units, known as a surrogate pair. First 1000016 is subtracted from the code point to give a 20-bit value. This is then split into two 10-bit values each of which is represented as a surrogate with the most significant half placed in the first surrogate.

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