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Say we want to concatenate const char *s[0], s[1], ... s[n-1] into one long char out[] in C.

Formally (ignoring buffer overruns, for simplicity):

void concatManyStrings(char out[], const char *s[], size_t n);

It is a trivial task, of course: start with a pointer to out and advance it for every char,
while looping through the input strings.

Another approach (which is still linear-time) would be to keep a pointer to the end,
and with each s[i] do:

{ strcpy(endp, s[i]); endp += strlen(s[i]); }

But, the code would be cleaner if there was a standard CRT function that knows how to strcpy(),
and return the number of copied chars (or equivalently, a pointer to the next char after the copied).

The only CRT function I can think of that does that is sprintf(), but it is obviously not nearly
as efficient as a simple strcpy() that returns count.

Is there such a function that I'm missing?

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The time will be linear in the size of the strings in your s unless you do something weird like using strcat() without adjusting the start point at which concatenation occurs. –  Jonathan Leffler Aug 25 '11 at 19:50
    
"crt"? Cathode ray tube? I presume you meant "C runtime", but "standard library" would probably have been clearer. –  Keith Thompson Aug 25 '11 at 19:55
1  
@Keith: CRT is a common initialism for the C runtime (though it's more popular with Microsoft than in other circles). –  Adam Rosenfield Aug 25 '11 at 19:59
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3 Answers

up vote 2 down vote accepted

strlcpy() and strlcat() are non-standard, unfortunately, but if you happen to have them, you can use them for this. They both return results that let you determine the end of the copied string, unlike strcpy() and strcat() which (somewhat uselessly) return a pointer to the start of the destination.

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You can't afford to ignore buffer overruns; that's one of the main ways the web world crashes.

Given the data structure shown, there is a limit to what you can do. If the data structure included the lengths of each of the strings in the data passed to the function, there'd be more you can do. However, until then, you have to determine the length of each string (and supply the length of the output buffer), and then arrange to safely copy the strings. Since by the time you are copying you will know the length of the string, you can use memmove() or memcpy() to move the data, and you know the length so you can adjust the pointer:

int concatManyStrings(char *buffer, size_t buflen, const char **data, size_t nitems)
{
    assert(buflen > 0);
    char *dst = buffer;
    char *end = buffer + buflen - 1;
    for (size_t i = 0; i < nitems; i++)
    {
         size_t len = strlen(data[i]);
         if (dst + len >= end)
             return -1;
         memmove(dst, data[i], len);
         dst += len;
    }
    *dst = '\0';
    return 0;
}

This scans each string twice - once for the length and once for copying. However, you can't afford to use strncpy() because of its null-padding behaviour (diabolical in this context); the fact that it doesn't guarantee null termination would not be a problem. You can't use strcpy() until you know that the length is safe, which requires the strlen(). If the data was not a simple array of pointers to strings but an array of a structure that included the length of the string as well as the pointer, then the strlen() could be avoided. With caution, it might be feasible to use strcat() or strncat(); the primary caution would be to avoid quadratic behaviour (Schlemiel's Algorithm), which can be done by ensuring you determine the end of each added string. In the case of strncat(), be very careful with the size parameter; it is different from what strncpy() gets as a size. And you are still likely to need to use strlen() as the standard functions do not report the end of string where they placed the last character - which would be vastly more helpful than returning a pointer to the first character of the target string.

There isn't a standard function to do this that I know of.

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Of course I can afford to ignore buffer overruns: this is just a narrow question regarding a missing crt function, and has nothing to do with crashing the web nor the world... –  Naftali Ben-Hispusit Aug 25 '11 at 19:52
    
GNU has the stpcpy function, which returns a pointer to the end of the string, but it's very non-standard. –  Adam Rosenfield Aug 25 '11 at 19:55
    
You cannot afford to ignore buffer overruns. Period. Even if your application will never go anywhere near the web, you have to be sure you will not overrun your buffer if your program is not to crash. Even if you do it by (over-)allocating space for the target string, you have to worry about it. If you don't, you programs will crash and burn. –  Jonathan Leffler Aug 25 '11 at 19:55
    
Oy, Jonathan, Jonathan. Not all programmers are equally anal. Some of us program for 30 years, enjoy an occasional buffer overrun, and have never ever seen a program burn. –  Naftali Ben-Hispusit Aug 25 '11 at 20:07
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Use snprintf, which is basically always the right answer to any question about assembling strings:

snprintf(buf, buflen, "%s%s%s", str1, str2, str3);

Unfortunately this does not work for "arbitrary n" as the input string count; for that just write your own for loop...

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... which is basically always the right answer if you don't care about performance (in which case, python would provide more elegant solutions) ;-) –  Naftali Ben-Hispusit Aug 25 '11 at 20:17
    
You can still use snprintf in a loop for arbitrarily many strings, you just need to either use the return value or the %n modifier to get the number of characters written. Of course, even then, I bet it'd be slower than doing a strcpy and extra strlen call, since those functions use heavily-optimized assembly which snprintf can't take advantage of. –  Adam Rosenfield Aug 25 '11 at 20:32
    
If you're going to use the ugly loop and multiple "concatenation" steps you might as well use strlen and memcpy yourself. No point in using snprintf. The only point in using snprintf is not to perform pointer arithmetic and buffer-length arithmetic at all so that there's no possibility of getting it wrong. –  R.. Aug 25 '11 at 21:08
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