Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I am reading "Write Great Code Volume 2" and it shows the following strlen impelementation:

int myStrlen( char *s )
    char *start;
    start = s;
    while( *s != 0 )
    return s - start;

the book says that this implementation is typical for an inexperienced C programmer. I have been coding in C for the past 11 years and i can't see how to write a function better than this in C(i can think of writing better thing in assembly). How is it possible to write code better than this in C? I looked the standard library implementation of the strlen function in glibc and I couldn't understand most part of it. Where can I find better information on how to write highly optimized code?

share|improve this question
Are you sure its a optimization issue? Or just the standard security issue? – Martin Kristiansen Jul 5 '11 at 14:33
@Victor Don't believe everything you read. That function is fast enough. – cnicutar Jul 5 '11 at 14:33
it was optimization issue. – Victor Jul 5 '11 at 14:35
I once wrote strlen() in assembler for an i386 system which used the CPU string (REP) opcodes, and ran 6x faster than optimized C code. – David R Tribble Jul 5 '11 at 15:28
@Loadmaster: can you post this code please? – Victor Jul 5 '11 at 15:44

7 Answers 7

up vote 11 down vote accepted

From Optimising strlen(), a blogpost by Colm MacCarthaigh:

Unfortunately in C, we’re doomed to an O(n) implementation, best case, but we’re still not done … we can do something about the very size of n.

It gives good example in what direction you can work to speed it up. And another quote from it

Sometimes going really really fast just makes you really really insane.

share|improve this answer
Great link! Thanks! – Victor Jul 5 '11 at 14:42

Victor, take a look at this:

P.S. The reason you don't understand the glibc version is probably because it uses bit shifting to find the \0.

share|improve this answer
So how is that faster ? – cnicutar Jul 5 '11 at 14:36
My guess is, that with a moderate compiler, this will produce exactly the same byte-code as the OPs implementation... – Constantinius Jul 5 '11 at 14:38
Is wikipedia offline? I can't open the link......... – Victor Jul 5 '11 at 14:40
@Martin: you cannot check a 'word' against zero, that won't work – Karoly Horvath Jul 5 '11 at 14:42
Actually I understand how bit shift works. – Victor Jul 5 '11 at 14:51

As others have pointed out, a faster algorithm reads entire words instead of individual characters and uses bitwise operations to find the terminating null. Be mindful of word-aligning your pointer if you take this approach, as some CPU architectures won't let you read words from an unaligned address (and it's a great way to trigger a segfault even on architectures that don't require alignment).

Bottom line:

Great code emphasizes readability over speed in all but the most performance-critical cases. Write your code as clearly as you can and only optimize the parts that prove to be bottlenecks.

share|improve this answer
I guess argument "great code is reader-friendly code" doesn't hold in case of C Std library that aims for performance. – Victor Sorokin Jul 6 '11 at 12:53
Since the std libraries are so widely and frequently used, the "performance-critical" exception is appropriate. Still, most of them could use better documentation... – Tony the Pony Jul 6 '11 at 13:16

For starters, this is worthless for encodings like UTF-8... that is, calculating the number of characters in an UTF-8 string is more complicated, whereas the number of bytes is, of course, just as easy to calculate as in, say, an ASCII string.

In general, you can optimize on some platforms by reading into larger registers. Since the other links posted so far don't have an example of that, here's a bit of pseudo-pseudocode for lower endian:

int size = 0;
int x;
int *caststring = (int *) yourstring;
while (int x = *caststring++) {
  if (!(x & 0xff)) /* first byte in this int-sized package is 0 */ return size;
  else if (!(x & 0xff00)) /* second byte etc. */ return size+1;
  /* rinse and repeat depending on target architecture, i.e. twice more for 32 bit */
  size += sizeof (int);
share|improve this answer
That's probably won't improve peformance, I have a feeling it will just make it worse. – Karoly Horvath Jul 5 '11 at 14:51
@yi_H: Disadvantages: one extra AND per byte. Advantages: 75% less loads from memory, 75% less jumps. Which side wins the contest is almost certainly architecture-specific. I have no concrete knowledge of how it would perform on which architectures, so you may well be right. But you might just as well be wrong. ;) – Jan Krüger Jul 5 '11 at 15:02
it's actually 75% less load from the cache line, as these are consecutive bytes. – Karoly Horvath Jul 5 '11 at 15:34
Yep. Totally correct. Perhaps I should reconsider that staying awake thing. – Jan Krüger Jul 5 '11 at 15:43

Reading a variable that is not of the same size as the machine data bus size is expensive, because the machine can only read variables of that size. Therefore, whenever something of different size (let's say smaller) is requested, the machine must do work to make it look like a variable of the requested size (like shifting the bits). So you better read the data in machine sized words, and then use the AND operation to check for 0s. Also, when scanning through the string, make sure you start at an aligned start address.

share|improve this answer

Answering OP's question about where to find suggestions how to write code for performance, here's link to MIT OpenCourse on writing Optimized C Code (look for "Materials" link on the left of page).

share|improve this answer

The following should be faster than the naive algorithm and work for 32/64 bit.

union intptr {
    char* c;
    long* l;
#define LSIZE sizeof(long)

#define aligned_(x, a) \
    ((unsigned long) (x) % (a) == 0)

#define punpktt_(x, from, to) \
    ((to) (-1)/(from) (-1)*(from) (x))
#define punpkbl_(x) \
    punpktt_(x, unsigned char, unsigned long)

#define plessbl_(x, y) \
    (((x) - punpkbl_(y)) & ~(x) & punpkbl_(0x80))
#define pzerobl_(x) \
    plessbl_(x, 1)

static inline unsigned long maskffs_(unsigned long x)
    unsigned long acc = 0x00010203UL;
    if (LSIZE == 8)
       acc = ((acc << 16) << 16) | 0x04050607UL;
    return ((x & -x) >> 7) * acc >> (LSIZE*8-8);

size_t strlen(const char* base)
    union intptr p = { (char*) base };
    unsigned long mask;

    for ( ; !aligned_(p.c, LSIZE); p.c++ )
        if (*p.c == 0)
            return p.c - base;

    while ( !(mask = pzerobl_(*p.l)) )
    return p.c - base + maskffs_(mask);
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.