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char* func( char* a, const char* b )
    while( *a )
        char *s = a, *t = b;
        while( (*s++ == *t++) && *s && *t );

        if( *t == 0 )
            return a;
    return 0;       

The above code was written to search for the first instance of string "b" inside of string "a."

Is there any problem with the above program?

Is there any approach to improve the efficiency of it?

share|improve this question
I'm not entirely certain as my C# is a bit rusty, but I don't think that you can use const for function parameters in a function declaration. – Daniel Allen Langdon Aug 16 '10 at 21:03
this is c++ and he can use const of course. – Klark Aug 16 '10 at 21:04
Cookies, this isn't c#. Having a const char* as a function parameter is the preferred way of showing that the string is not mutated. – Eric Finn Aug 16 '10 at 21:06
One problem I see already, is that I find it barely readable. Please indent properly, give a hint what the individual expressions are supposed to do, don't do side effects, ... Then why is there only one const at all in your program. Your compiler with all warnings on might already tell you some more problems. – Jens Gustedt Aug 16 '10 at 21:08
In addition to @Jens's suggestions, using variable names longer than 1 character is usually a good thing. What does t mean? – nmichaels Aug 16 '10 at 21:12

12 Answers 12

up vote 11 down vote accepted

If a points to "cat" and b points to "ab", func will return a pointer to "at" (the wrong value) instead of 0 (the intended value) because the pointer t is incremented even though the comparison (*s++ == *t++) fails.

For completeness' sake and in order to answer the second question, I'd offer one solution (surely among other viable ones): Have the result of the comparison be assigned to another variable, e.g. while( ( flag = ( *s++ == *t++ ) ) && *s && *t ); and then if( flag && *t == 0 ).

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+1 for the implicit suggestion that one might step through one's code with small examples before posting here. – Jens Gustedt Aug 16 '10 at 21:19

I'm not a C developer so I can't nor will comment on the correctness of the code but with regards to efficiency, see:

I believe you have the naive searching version. Look at the Knuth-Morris-Pratt algorithm. You can do a little work on the string b before you are searching in a. And then you can do it in O(|a|+|b|). And |b| is larger than |a| then b can't be in a so it becomes O(|a|).

The essence is that if a is:


And b is:


Then you know that if the third char fails then a search will also fail if you shift b one char or two chars. Therefore you don't have to check every possible substring:

a[1 .. 3] == b
a[2 .. 4] == b

which is O(|a|*|b|) chars but only a subset which is equal to O(|a|)

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  • t can't be assigned b as its destroying const.
  • it doesn't match the last char in "b" properly.
share|improve this answer

Well, it does have the slight problem that it doesn't actually work.

Try running with a="xyz" and b="xw". When you hit the while loop the first time, x=x, you increment both pointers, and loop around again. Then y!=w, so you exit the loop. But you've already incremented the pointers, so t==0, and you report a hit.

In general, you report a hit regardless of whether the last character matches.

If b is a 1-character string, the last character is the only character, so a 1-character string matches anything.

I'd recommend against trying to do the loop with a single statement with side effects. As this example illustrates, this is tricky. Even if you get it right, it's very cryptic for people trying to read your code.

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Exactly! The provided code is for StartsWith not Substring – Nate Zaugg Aug 16 '10 at 21:55

you could rewrite 'while loop' as (without using flag):

while( (*s == *t) && *s && *t ){

Or use for loop...below code is copied from K&R book of 'C':

/* strindex: return index of t in s, -1 if none */
int strindex(char s[], char t[])
  int i, j, k;
  for (i = 0; s[i] != '\0'; i++) {
  for (j=i, k=0; t[k]!='\0' && s[j]==t[k]; j++, k++)
  if (k > 0 && t[k] == '\0')
  return i;
  return -1;
share|improve this answer
  • If a is not properly null-terminated, the function will die horribly.
  • If b is not properly null-terminated, the function will probably die horribly.
  • The indentation is strange.
share|improve this answer
All bets are off if the string isn't null terminated, no? – Noel M Aug 16 '10 at 21:09
If a thing is not \0-terminated, it is not a string (see ISO C99, 7.1.1p1). – Roland Illig Aug 16 '10 at 21:26
Generally speaking, if a function will cause the program to die horribly on invalid input, it should check its inputs. That's why there's a whole set of string functions that take size parameters. Bugs happen. At the very least, a bit of error-checking code will let you die gracefully and predictably on bad inputs. – Thom Smith Aug 16 '10 at 22:25
What if the size passed is wrong? (This is in the same class of error as the input not being nul-terminated). – caf Aug 16 '10 at 23:02
How can a c-string not be null-terminated? If you try to traverse it, sooner or later, somewhere in memory, you will find a null byte. Unless, I suppose, there is no null byte anywhere in memory after the starting address. I think you're asking for an impossible validation. You might as well insist that a function validate that a pointer is actually to the right place and not to a random area in memory. How would you know? – Jay Aug 17 '10 at 3:23

This is going to do the job but I there are better ways to do this. Check this article:

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I think the line:

while( (*s++ == *t++) && *s && *t );

is undefined because you are accessing the variables after the post-increment they might be before the increment or after the increment.

Unless they changed it, side effects of expressions are undefined by the standard as to when they take effect. The only thing guaranteed is *s++ will access s first and then increment for the next statement. What is undefined is whether the && s and && t see the value before or after the increment...

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Nope, && comes with its own sequence point. That means that all side effects on its left are done before any processing on its right, so this is well-defined. – David Thornley Aug 16 '10 at 21:40

Very picky point, in addition to those raised by others:

If a and b are both 0-length, then this routine returns NULL. If it's supposed to be following the specification of strstr, then it must return a in that case. Which makes sense, since the empty string b is indeed a substring of the empty string a.

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Why do you not use a function for your work? Do you know strstr()?

const char* mystrstr(const char* a,const char* b)
  size_t blen=strlen(b);
  while( *a )
    if( !strncmp(a,b,blen) )
      return a;
  return 0;       
share|improve this answer

*t = b; //killing the const-ness of b....

Also to clarity to code you can do while(*a!= '\0') instead of while(*a) Also the second while statement : while( (*s++ == *t++) && *s && *t ); will fail....Try to take int flag = (*s++ = *t++) ; and do bit of simplification

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The efficiency? It's horrible! < This does not mean I can do better, though... I'd do the same thing. ;)

Take a look at Knuth-Morris-Pratt.

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