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I'm trying to understand string.h functions. Here is my own implementation of strncpy()

char * my_strncpy(char *dst, const char* src, int n)
{
    char *orig = dst;
    const char *hold = src;
    int count = 0, remain = 0;
    while(*(hold++))
            count++;
    if ( n > count )
    {
            remain = n - count;
            n = count;
    }
    while(n--)
            *dst++ = *src++;
    while(remain--)
            *dst++ = '\0';
    return orig;
}

But while looking at glibc implementation here, I'm wondering why it is too big and complicated.

I tested for execution time using "time" command. Both functions run almost same.
Can someone share knowledge on glibc strncpy() and what I'm missing in my_strncpy().

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2  
It is a little more complicated because, AFAICT, it does not count the chars before it copies, and it seems to have some kind of simple loop unrolling going on. Not sure if that is really much faster, though. You'd have to time/profile both to find out. –  Rudy Velthuis Jun 18 '14 at 6:36
2  
Aparently it copies 4 chars on every for loop iteration. After finishing copying these 4-char chuncks, the code at last_char is used to copy the remanining (<4) characters. Ultimately the destination buffer is filled with \0s. The logic does not seem very complicated to me, however I'm not sure of the potential performance benefits. –  dragosht Jun 18 '14 at 6:41
5  
The glibc version will have a distinct speed advantage the longer the string and the larger the number of characters to be copied. Generally the additional code gymnastics are to prevent branching at the assembly level which is what provides the speed advantage. For another good example, look at the implementation of strlen –  David C. Rankin Jun 18 '14 at 6:42
2  
Generally when timing functions against glibc implementations, try at least 1000000 iterations and test against short strings (<16 chars) and longer strings (>32 chars), etc.. Your implementations for short strings may even be faster, but I've not been able to beat glibs implementations for long strings. –  David C. Rankin Jun 18 '14 at 7:29
2  
Related: How the glibc strlen() implementation works, –  Yu Hao Jun 18 '14 at 7:34

1 Answer 1

From a modern C programming perspective, that "Glibc" code is very badly written. It looks like a collection of premature optimizations for one particular platform with 32 bit alignment. If the compiler is crap, then you'll have to group bytes in units of the preferred alignment and copy them one such unit at a time. That's the main reason why the code looks so weird.

I would guess that the code was likely written a long time ago, when compilers were a lot worse at optimizing code and CPUs had less hardware support for things like these. The inconsistent, seemingly random way that they switch back and forth between prefix to postfix increment also suggests that the code was written for a poor compiler.

Apart from pre-mature optimization, the code is complete spaghetti, which there is no sensible explanation for. The complete lack of comments also suggests that the code was written by a bad programmer.

So to sum it up, there may or may not be various historical reasons why they wrote the code in this way, but there are lots of bad programming practice in the code which can't be dismissed as pre-mature optimizations.

Just dismiss that code as rubbish.


Also please note that the strncpy function is mainly obsolete and should be avoided. strncpy was only meant to be used for an ancient string format in Unix. It was never intended to be a safe version of strcpy. On the contrary, the function is dangerous and known to cause a lots of bugs because of accidental missing null terminations.

The standard specification of strncpy also forces it to do a lot of pointless things, like checking for null termination when you already know the length in advance. Also, one may wonder what good it does anyone to fill the remaining characters after the first \0 with even more \0. All of these pointless requirements make the function needlessly slow.

So there is never a reason to use strncpy anywhere in modern C code. The proper way to copy strings of a known length is this:

memcpy(str1, str2, str2len + 1);
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strncpy() is still good for explicitly null-padding a string to a certain number of bytes. –  The Paramagnetic Croissant Jun 18 '14 at 7:42
    
@user3477950 No it isn't. Use memcpy() followed by memset(). –  Lundin Jun 18 '14 at 7:42
2  
why isn't it? Also, I'm not sure about your note about premature optimization either. This is library code, there definitely is some excuse for writing more obscure but faster code so that users of the library don't have to hand-craft their version of optimized functions because the library functions are insufficiently fast. The lack of comments may be a point, but this implementation of str(n)cpy is quite common and anyone who has encountered the switch-trick will recognize it, so there's no much need for comments at all. –  The Paramagnetic Croissant Jun 18 '14 at 7:46
3  
@Lundin strncpy() is unsafe if you don't use it properly. Just like almost any other C function dealing with strings. As to its speed: if it's "slow", then so is memcpy() and strcpy(). That's not a reason. "Generally, it does not make sense to optimize code on the high level of libraries" - it absolutely positively does. Optimization should happen in libraries so that user code doesn't have to worry about that. The trick glibc implements works (and is often used) on most 32-bit systems (Linux, BSD, OS X and even Windows). –  The Paramagnetic Croissant Jun 18 '14 at 8:03
3  

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