In C, how exactly can I compare a string that contains * (that can be any combination of characters) with a two dimensional matrix of strings?

For example, I have the word go*s. It can generate the words "gorgeous" (* is "orgeou"), "goodness", "goats", "goes" etc. I am supposed to read the words from a whole dictionary and compare them with a word that contains one or more asterisks (*). Each word that can be generated from the word with the asterisk will have to be printed. If the two words have the same length then it is easy to compare because the * can only be one letter.

int fq(char *s1, char *s2){
int i, a=0, b=0, s=0;
while (1){
    if (s1[a]=='\0')
if (strlen(s1)==strlen(s2)){
    for(i=0; i<a; i++){
        if (s1[i]=='*'){
        if (s1[i]==s2[i]){
if (b==a)
    return 1;
  • You really should check out regular expression library, such as regcomp(3). – Lee Duhem May 4 '14 at 14:25
  • man is your friend. glob is your friend. % man 3 glob – Charlie Burns May 4 '14 at 14:48
  • 1
    @CharlieBurns You mean fnmatch(3). glob(3) is for file names only. – user4815162342 May 4 '14 at 21:43
  • Huh. That's weird. I could have sworn I used glob to match strings. But that was years ago. Maybe I had a special version in my own library. – Charlie Burns May 4 '14 at 21:54

You can fairly easily write a recursive function for comparing a sting to another string with a wildcard in it by examining the pattern string character by character and applying these rules as follows:

  • if pattern[p] == '\0': the patterns match if candidate[c] == '\0'
  • if pattern[p] == '*': try to match candidate[c]...candidate[c+n] with pattern[p+1]
  • if pattern[p] != '?' and pattern[p] != candidate[c]: No match
  • otherwise, match pattern[p+1] with candidate[c+1]

These few rules can easily be written as a recursive function for matching:

#include <stdbool.h>

bool match(const char *pattern, const char *candidate, int p, int c) {
  if (pattern[p] == '\0') {
    return candidate[c] == '\0';
  } else if (pattern[p] == '*') {
    for (; candidate[c] != '\0'; c++) {
      if (match(pattern, candidate, p+1, c))
        return true;
    return match(pattern, candidate, p+1, c);
  } else if (pattern[p] != '?' && pattern[p] != candidate[c]) {
    return false;
  }  else {
    return match(pattern, candidate, p+1, c+1);

then, you can do:

match("f*o", "foo", 0, 0);

This is not an effective method, but I think it is easy to understand and implement. If you need something more efficient, you can start from these: http://en.wikipedia.org/wiki/String_searching_algorithm

  • (Very minor note) bool, true and false are C++. Make sure to #include <stdbool.h> for C. – usr2564301 May 4 '14 at 14:48
  • Thank you for this. I've got another question. Would this work if a word also contains any number of (?) along with any number of (). The question mark can be any character from the English alphabet. For example, "?os" can generate the word "poets" and thus the function should return 1. – user3601507 May 4 '14 at 15:06
  • Not directly, however you can easily modify the last else if statement like this: (pattern[p] != '?' && pattern[p] != candidate[c]). (now it does) – Filip May 4 '14 at 15:09
  • Apparently I have to type the pattern word (I use gets() to read it) and then type a number of candidate words which are separated by spaces. Then the program must print all the candidate words that can be generated from the pattern word. I'm very new to C so I don't really know how to create a two-dimensional string(matrix). Not a native English speaker so this might be confusing. – user3601507 May 4 '14 at 15:24
  • I would simply read one word, see if it matches and print it if it does. That way you do not have to keep everything in memory. Anyway, you can declare an array of strings like this: char **strs and then access each string like this: strs[0]. – Filip May 4 '14 at 15:35

The following will work with an input string containing a single *.

  1. Start comparing one character at a time at the start of your input word.
  2. If you encounter a *, compare both strings from the last character, backwards.
  3. When you have a non-match, return 0
  4. If you encounter the * you are done.
  5. On a non-match, return 0.

(Add.: This algorithm would also work with the * in the very first or last position.)

  • 2
    According to OP, the pattern may contain one or more asterisks. Will this algorithm work for multiple asterisk patterns? – user4815162342 May 4 '14 at 14:34
  • @user4815162342: fair question. Calling this function recursively may work, but that's just a guess. In that case one needs to check forwards only (although in the case of a single asterisk, starting at the end is way faster). – usr2564301 May 4 '14 at 14:39
  • I have thought about doing that but it didn't seem right in my head at the time. But now that I think of it it's pretty much the best way to do it I think. What happens when a word contains more than one asterisks though? – user3601507 May 4 '14 at 14:43

You can check if the first two chars are "go" and if the last one is 's'.

To simplest way to do this I see is with a simple condition:

if (strncmp(str, "go", 2) == 0 && str[strlen(str) - 1] == 's')

strncmp returns 0 if the strings match.

You should also ensure you the string is at least 2 chars long, otherwise you'll have segmentation fault as you're comparing 2 chars of your string, you can add in the above condition:

strlen(str) >= 2

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