I am trying to code a custom strcat that separates arguments with \n except for the last one and terminates the string with \0.

It's working fine as is up to 5 arguments, but if I try passing a sixth one I get a strange line in response :

MacBook-Pro-de-Domingo% ./test ok ok ok ok ok
MacBook-Pro-de-Domingo% ./test ok ok ok ok ok ok

Here is my custom strcat code:

char    cat(char *dest, char *src, int current, int argc_nb)
    int i = 0;
    int j = 0;


        dest[i + j] = src[j];

    if(current < argc_nb - 1)
        dest[i + j] = '\n';
        dest[i + j] = '\0';


UPDATE Complete calling function:

char    *concator(int argc, char **argv)
    int i;
    int j;
    int size = 0;
    char *str;

    i = 1;

    while(i < argc)
        j = 0;

    str = (char*)malloc(sizeof(*str) * (size + 1));

    i = 1;

   while(i < argc)
        cat(str, argv[i], i, argc);


What's wrong here?


Edit: Fixed blunder.

  • dest needs to be initialized with the required length and filled with zeros. Can you show the full code? – Domso Jul 24 '18 at 10:50
  • 1
    Don't assume that the problem is not in the code you're not showing. – klutt Jul 24 '18 at 10:51
  • @klutt I updated the question with the full code :) Sorry about that – Wizzardzz Jul 24 '18 at 10:55
  • @Domso I updated the question – Wizzardzz Jul 24 '18 at 10:55
  • This code only calculates the length of the last command line argument ... you reset j to 0 each time. probably, you wanted to use size in your malloc(). – user2371524 Jul 24 '18 at 10:55

There are quite a few issues with the code:

  • sizeof (char) == 1 by the C standard.

  • cat() requires the destination to be a string (terminated by a \0), but does not append it itself (except for current >= argc_nb - 1). This is a bug.

  • free(str); return str; is an use-after-free bug. If you call free(str), the contents at str are irrevocably lost, inaccessible. The free(str) should simply be removed; it is not appropriate here.

  • Arrays in C are indexed at 0. However, the concator() function skips the first string pointer (because argv[0] contains the name used to execute the program). This is wrong, and will eventually trip someone. Instead, have concator() add all strings in the array, but call it using concator(argc - 1, argv + 1);.

There might be even more, but at this point, I believe a rewrite from scratch, using a much more appropriate approach, is in order.

Consider the following join() function:

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

char *join(const size_t parts, const char *part[],
           const char *separator, const char *suffix)
    const size_t separator_len = (separator) ? strlen(separator) : 0;
    const size_t suffix_len = (suffix) ? strlen(suffix) : 0;
    size_t       total_len = 0;
    size_t       p;
    char        *dst, *end;

    /* Calculate sum of part lengths */
    for (p = 0; p < parts; p++)
        if (part[p])
            total_len += strlen(part[p]);

    /* Add separator lengths */
    if (parts > 1)
        total_len += (parts - 1) * separator_len;

    /* Add suffix length */
    total_len += suffix_len;

    /* Allocate enough memory, plus end-of-string '\0' */
    dst = malloc(total_len + 1);
    if (!dst)
        return NULL;

    /* Keep a pointer to the current end of the result string */
    end = dst;

    /* Append each part */
    for (p = 0; p < parts; p++) {

        /* Insert separator */
        if (p > 0 && separator_len > 0) {
            memcpy(end, separator, separator_len);
            end += separator_len;

        /* Insert part */
        if (part[p]) {
            const size_t  len = strlen(part[p]);
            if (len > 0) {
                memcpy(end, part[p], len);
                end += len;

    /* Append suffix */
    if (suffix_len > 0) {
        memcpy(end, suffix, suffix_len);
        end += suffix_len;

    /* Terminate string. */
    *end = '\0';

    /* All done. */
    return dst;

The logic is simple. First, we find out the length of each component. Note that separator is only added between parts (so occurs parts-1 times), and suffix at the very end.

(The (string) ? strlen(string) : 0 idiom just means "if string is non-NULL, strlen(0), otherwise 0". We do that, because we allow NULL separator and suffix, but strlen(NULL) is Undefined Behaviour.)

Next, we allocate enough memory for the result, including the end-of-string NUL char, \0, that was not included in the lengths.

To append each part, we keep the result pointer intact, and instead use a temporary end pointer. (It is the end of the string thus far.) We use a loop, where we copy the next part to the end. Before the second and subsequent parts, we copy the separator before the part.

Next, we copy the suffix, and finally the end-of-string '\0'. (It is important to return a pointer to the beginning of the string, rather than end, of course; and that is why we kept dst to point to the new resulting string, and end at the point we appended each substring.)

You could use it from the command line using for example the following main():

int main(int argc, char *argv[])
    char *result;

    if (argc < 4) {
        fprintf(stderr, "\n");
        fprintf(stderr, "Usage: %s SEPARATOR SUFFIX PART [ PART ... ]\n", argv[0]);
        fprintf(stderr, "\n");
        return EXIT_FAILURE;

    result = join(argc - 3, (const char **)(argv + 3), argv[1], argv[2]);
    if (!result) {
        fprintf(stderr, "Failed.\n");
        return EXIT_FAILURE;

    fputs(result, stdout);
    return EXIT_SUCCESS;

If you compile the above to e.g. example (I use gcc -Wall -O2 example.c -o example), then running

./example ', ' $'!\n' Hello world

in a Bash shell outputs

Hello, world!

(with a newline at end). Running

./example ' and ' $'.\n' a b c d e f g


a and b and c and d and e and f and g

(again with a newline at end). The $'...' is just a Bash idiom to specify special characters in strings; $'!\n' is the same in Bash as "!\n" is in C, and $'.\n' is the Bash equivalent of ".\n" in C.

(Removing the automatic newline between parts, and allowing a string rather than just one char to be used as a separator and suffix, was a deliberate choice for two reasons. The main one is to stop anyone from just copy-pasting this as an answer to some exercise. The secondary one is to show that while it might sound more complicated than just using single characters for them, it is actually very little additional code; and if you consider the practical use cases, allowing a string to be used as the separator opens up a lot of options.)

The example code above is only very lightly tested, and might contain bugs. If you find any, or disagree with anything I've written above, do let me know in a comment so I can review, and fix as necessary.

  • Thank you very much for your answer. This is very instructive for a beginner like me! – Wizzardzz Jul 25 '18 at 17:56

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