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I decided to find the speeds of 2 functions :

  • strcmp - The standard comparison function defined in string.h
  • xstrcmp- A function that has same parameters and does the same, just that I created it.

Here is my xstrcmp function :

int xstrlen(char *str)
    int i;
    return i;

int xstrcmp(char *str1, char *str2)
    int i, k;
        return -1;
            return -1;
    return 0;

I didn't want to depend on strlen, since I want everything user-defined.

So, I found the results. strcmp did 364 comparisons per millisecond and my xstrcmp did just 20 comparisons per millisecond (atleast on my computer!)

Can anyone tell why this is so ? What does the xstrcmp function do to make itself so fast ?

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"does the same" is not accurate... it returns -1 if the strings have different lengths? Also, yours has 3 strlen() calls which are O(n). strcmp() shouldn't need any strlen() calls. –  FatalError Jul 17 '12 at 12:33
"since I want everything user-defined." For learning it's good, but don't reimplement already existing methods just for the sake of it. –  Johan Lundberg Jul 17 '12 at 12:35
With many compilers strcmp and strcpy are hand-optimized and produce very tight inline code. –  Hot Licks Jul 17 '12 at 12:36
Someone copied the GNU version into this forum thread: compsci.ca/v3/viewtopic.php?t=24383 (3rd post) –  BoBTFish Jul 17 '12 at 12:42
@c.adhityaa - here is the highly-optimized gnu-strlen function. From the comment: Instead of the traditional loop which tests each character, we will test a longword at a time. The tricky part is testing if any of the four bytes in the longword in question are zero. –  rubber boots Jul 17 '12 at 12:47
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6 Answers

up vote 34 down vote accepted
if(xstrlen(str1)!=xstrlen(str2))    //computing length of str1
    return -1;                      
k=xstrlen(str1)-1;                  //computing length of str1 AGAIN!

You're computing the length of str1 TWICE. That is one reason why your function loses the game.

Also, your implemetation of xstrcmp is very naive compared to the ones defined in (most) Standard libraries. For example, your xstrcmp compares one byte at a time, when in fact it could compare multiple bytes in one go, taking advantage of proper alignment as well, or can do little preprocessing so as to align memory blocks, before actual comparison.

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Yeah. Besides that any other way to optimize ? –  hypothesist Jul 17 '12 at 12:38
@c.adhityaa The most important optimization in data-processing tasks is to find ways how to access the data from memory as fast as possible. Every other trick doesn't help much, usually. –  rubber boots Jul 17 '12 at 12:41
Even worse than the THREE calls to strlen, is that none are required. –  OrangeDog Jul 17 '12 at 20:20
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strcmp and other library routines are written in assembly, or specialized C code, by experienced engineers and use a variety of techniques.

For example, the assembly implementation might load four bytes at a time into a register, and compare that register (as a 32-bit integer) to four bytes from the other string. On some machines, the assembly implementation might load eight bytes or even more. If the comparison shows the bytes are equal, the implementation moves on to the next four bytes. If the comparison shows the bytes are unequal, the implementation stops.

Even with this simple optimization, there are a number of issues to be dealt with. If the string addresses are not multiples of four bytes, the processor might not have an instruction that will load four bytes (many processors require four-byte loads to use addresses that are aligned to multiples of four bytes). Depending on the processor, the implementation might have to use slower unaligned loads or to write special code for each alignment case that does aligned loads and shifts bytes in registers to align the bytes to be compared.

When the implementation loads four bytes at once, it must ensure it does not load bytes beyond the terminating null character if those bytes might cause a segment fault (error because you tried to load an address that is not readable).

If the four bytes do contain the terminating null character, the implementation must detect it and not continue comparing further bytes, even if the current four are equal in the two strings.

Many of these issues require detailed assembly instructions, and the required control over the exact instructions used is not available in C. The exact techniques used vary from processor model to processor model and vary greatly from architecture to architecture.

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+1, The segmentation fault case could be handled easily by performing first the slow test for unaligned and then working word by word, which ensures that all 4 bytes come from the same cache-line (and memory page). On the other hand, detection of the terminating character and determining equality when the null character is not the last character in an aligned word are much more complex. –  David Rodríguez - dribeas Jul 17 '12 at 14:04
@DavidRodríguez-dribeas: the trouble with handling alignment comes when you have multiple string arguments that are not necessarily similarly aligned; if a word in one string is aligned, the corresponding word from the other string may not be. There are a number of ways to deal with this, but they can get fussy (more of a pain than handling termination conditions). –  Stephen Canon Jul 17 '12 at 14:39
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Faster implementation of strlen:

//Return difference in addresses - 1 as we don't count null terminator in strlen.
int xstrlen(char *str)
    char* ptr = str;
    while (*str++);
    return str - ptr - 1;

//Pretty nifty strcmp from here:
int mystrcmp(const char *s1, const char *s2)
    while (*s1==*s2)

I'll do the other one later if I have time. You should also note that most of these are done in assembly language or using other optimized means which will be faster than the best stright C implementation you can write.

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Nice way to do it. Thanks ! –  hypothesist Jul 17 '12 at 12:50
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Aside from the problems in your code (which have been pointed out already), -- at least in the gcc-C-libs, the str- and mem-functions are faster by a margin in most cases because their memory access patterns are higly optimized.

There were some discussions on the topic on SO already.

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Try this:

int xstrlen(const char* s){
  const char* s0 = s;
  while(*s) s++;
  return(s - s0);

int xstrcmp(const char* a, const char* b){
  while(*a && *a==*b){a++; b++;}
  int del = *a - *b;
  if (del < 0) return -1;
  else if (del > 0) return 1;
  else return 0;

This could probably be sped up with some loop unrolling.

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365 comparisons for strcmp and 62 for your xstrcmp - 3x better. Thanks ! –  hypothesist Jul 17 '12 at 12:53
@c.adhityaa, you compile with optimization enabled, right? –  Shahbaz Jul 17 '12 at 13:32
@Mike, loop unrolling will not speed things up if the code for the optimized loop(s) become(s) large enough to fill the instruction cache. –  dadinck Jul 17 '12 at 16:23
"365 comparisons for strcmp and 62 for your xstrcmp - 3x better. " -- That's because your version is pessimized. Why not throw in ten more strlen calls just for yucks? –  Jim Balter Aug 29 '12 at 21:00
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1. Algorithm

Your implementation of strcmp could have a better algorithm. There should be no need to call strlen at all, each call to strlen will iterate over the whole length of the string again. You can find simple but effective implementations online, probably the place to start is something like:

// Adapted from http://vijayinterviewquestions.blogspot.co.uk
int xstrcmp(const char *s1, const char *s2)
  for (;*s1==*s2;++s1,++s2)
    if(*s1=='\0') return(0);

That doesn't do everything, but should be simple and work in most cases.

2. Compiler optimisation

It's a stupid question, but make sure you turned on all the optimisation switches when you compile.

3. More sophisticated optimisations

People writing libraries will often use more advanced techniques, such as loading a 4-byte or 8-byte int at once, and comparing it, and only comparing individual bytes if the whole matches. You'd need to be an expert to know what's appropriate for this case, but you can find people discussing the most efficient implementation on stack overflow (link?)

Some standard library functions for some platforms may be hand-written in assembly if the coder can knows there's a more efficient implementation than the compiler can find. That's increasingly rare now, but may be common on some embedded systems.

4. Linker "cheating" with standard library

With some standard library functions, the linker may be able to make your program call them with less overhead than calling functions in your code because it was designed to know more about the specific internals of the functions (link?) I don't know if that applies in this case, it probably doesn't, but it's the sort of thing you have to think about.

5. OK, ok, I get that, but when SHOULD I implement my own strcmp?

Off the top of my head, the only reasons to do this are:

  • You want to learn how. This is a good reason.
  • You are writing for a platform which doesn't have a good enough standard library. This is very unlikely.
  • The string comparison has been measured to be a significant bottleneck in your code, and you know something specific about your strings that mean you can compare them more efficiently than a naive algorithm. (Eg. all strings are allocated 8-byte aligned, or all strings have an N-byte prefix.) This is very, very unlikely.

6. But...

OK, WHY do you want to avoid relying on strlen? Are you worried about code size? About portability of code or of executables?

If there's a good reason, open another question and there may be a more specific answer. So I'm sorry if I'm missing something obvious, but relying on the standard library is usually much better, unless there's something specific you want to improve on.

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