3

Let's say I have the following code and output:

for (j = 0; j <= i; j++) 
    printf("substring %d is %s\n", j, sub_str[j]);

Output:

substring 0 is max_n=20
substring 1 is max_m=20

Now I only want to print some substrings. However, if I try to do this conditionally:

for (j=0; j <=i; j++) {
   if (sub_str[j] == "max_n=20") {
      printf("substring %d is %s\n", j, sub_str[j]);
   }
}

I get no output at all. What's wrong with my code?

7

You can't use == to compare strings in C. You must use strcmp.

for (j=0; j<=i; j++) { 
   if (strcmp(sub_str[j], "max_n=20") == 0) { 
      printf("substring %d is %s\n", j, sub_str[j]); 
   } 
} 
0
5

You can't compare strings in C with == operator. You need to use strcmp function or strncmp.

3
  • 4
    "which is sometimes safer". And sometimes more dangerous, since it's harder to use correctly. Nov 1 '10 at 15:15
  • What specifically is safer about it? See What's wrong with strcmp?.
    – David Cary
    Jun 23 '14 at 2:43
  • Correct, strncmp isn't safer. Jun 23 '14 at 8:17
2

Make certain you use strncmp and not strcmp. strcmp is profoundly unsafe.

BSD manpages (any nix will give you this info though):

man strncmp

int strncmp(const char *s1, const char *s2, size_t n);

The strcmp() and strncmp() functions lexicographically compare the null-terminated strings s1 and s2.

The strncmp() function compares not more than n characters. Because strncmp() is designed for comparing strings rather than binary data, characters that appear after a `\0' character are not compared.

The strcmp() and strncmp() return an integer greater than, equal to, or less than 0, according as the string s1 is greater than, equal to, or less than the string s2. The comparison is done using unsigned characters, so that \200' is greater than\0'.

From: http://www.codecogs.com/reference/c/string.h/strcmp.php?alias=strncmp

#include <stdio.h>
#include <string.h>

int main()
{
  // define two strings s, t and initialize s
  char s[10] = "testing", t[10];

  // copy s to t
  strcpy(t, s);

  // test if s is identical to t
  if (!strcmp(s, t))
    printf("The strings are identical.\n");
  else
    printf("The strings are different.\n");

  return 0;
}
10
  • 2
    I don't see why strcmp is less safe than strncmp. In any sane implementation, both functions will stop reading at the first \0 (I believe this is required by the standard). If you have a non-null-terminated string, you shouldn't be using the str* functions anyway. Nov 1 '10 at 15:11
  • @Chinmay: that's what "safer" really means when used in this sense - it might help catch coding errors elsewhere which failed to terminate a string, or at least it might help prevent buffer overrun when such errors exist. In this case it's difficult to see how to use strncmp to provide any addition safety at all, but people read something that says, "X is safer than Y", and believe it without necessarily knowing what it means. Nov 1 '10 at 15:14
  • If you suspect that any strings you have may not be null-terminated, you should use the mem* functions, which all take a size_t as the last argument. Personally, I've never seen the value of any of the strn* functions, though strncmp is a particularly pointless example. Nov 1 '10 at 15:22
  • 2
    @禪師-無: by that definition, strncmp is also profoundly unsafe. For that matter so is the C programming language. There is no substitute in C for knowing what you're doing. Nov 1 '10 at 15:29
  • 1
    @Chinmay: To answer an earlier point you made, what strncmp is actually for, is comparing "strings" that would be copied with strncpy. That is, fixed-width character arrays which may be truncated with a NUL byte, but which aren't NUL-terminated if they're full width, and also need not be 0-padded as strncpy does. If someone is using strncmp with anything other than archaic data records (e.g. some platform-specific filesystem structures), chances are they've chosen the wrong set of "safe" string-handling functions, even granted that some kind of buffer-length safety is worthwhile. Nov 1 '10 at 16:59
2

You can use strncmp:

if (!strncmp(sub_str[j], "max_n=20", 9)) {

Note the 9 is the length of the comparison string plus the final '\0'. strncmp is a little bit safer than strcmp because you specify how many comparisons will be made at most.

6
  • 1
    Classic error - if sub_str[0] points to a string "max_n=200", this call to strncmp will indicate equality. Since you've made an error, where Starkey didn't, this means strncmp is less safe than strcmp, not more ;-p Nov 1 '10 at 15:03
  • Mmm... interesting. You're right. However, it is more safe. It is just me not knowing how to use it well. If I put 9, then the comparison is completely right because of the final '\0' of the string. So, applying it well it is really safer. Thanks for the correction. I applied it. Nov 1 '10 at 15:05
  • 1
    @Diego: no, because you can still read-overrun whatever buffer sub_str[j] points to, if it is shorter than the string literal and isn't itself nul-terminated. The safety that strncmp provides is if you know how long the buffer is supposed to be, but don't know its contents, and use strncmp to ensure you don't overrun. In this case, we know that a string literal is always nul-terminated, and we don't know how long the other buffer is supposed to be, so it's no use at all. It guarantees no more than 9 comparisons: and so does strcmp because we know literals are terminated. Nov 1 '10 at 15:08
  • @Steve: Yes, you can overrun the buffer, but still here you have a known bound that is semantically appliable in this comparison. In fact, for this case of comparing a string with a character string literal, it may be no advantage of strncmp, but in general, bouding loops is better than not bounding them. Nov 1 '10 at 15:12
  • 2
    @Diego: I disagree. Bounding loops provides the programmer with a new and subtly different opportunity to screw up. In some cases this new opportunity is less dangerous than some other opportunity it replaces (for instance strcpy_s can have definite benefits over strcpy, although I would never go so far as to call it "safe" as some people do). In some cases (including this one) it's just one extra thing the programmer can get wrong, in addition to all the things available to get wrong before. Nov 1 '10 at 15:19

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