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I'm having a lot of trouble performing a very basic task: resizing an array. Every intro to programming class I've ever taken taught me to do this by creating a larger array, filling it, and then point the original array to the new (larger) one.

The program below tokenizes a string into a program name and its argv[] (it's ultimately going to be a basic shell implementation). It allocates space for 8 arguments at a time -- if there are more than 8 then it recursively allocates a larger array and fills it.

Everything is working well (please let me know otherwise!) except I can't point the args array to the moreArgs array. I have a statement that should do this at the end of the getArgs function but it simply is not reassigning the address of args[]. What am I doing wrong?

#define debug 1

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

char ** getArgs( char *input,  char **args, int ct);

/*Is there a better way than making these global?*/
char ** args;
char **moreArgs;

int main(int argc, char* argv[]) {
  char input[]="echo arg1 arg2 arg3 arg4 arg5 arg6 arg7 arg8 arg9 arg10";
  char inputcpy[strlen(input)];
  strcpy(inputcpy, input);
  char * temp;
  temp=strtok(input, " ");
  char * prog=temp;

  args=( char **) calloc(8, sizeof( char*));  

  getArgs(inputcpy, args, 1);

  if(debug) {
    printf("arg address after: %p\n", args);
    printf("morearg address after func: %p\n", moreArgs);

  /*This is basically  what the shell will look like. The actual implementation will use stdin
   for input. (Unless a pipe or < is present in the input)*/
  int q;
  int pid=fork();
  if (pid!=0) {
    execvp(prog, args); //when moreArgs!=null, args should point to moreArgs
    return 0;
  else {
    int status=0;

/*This function should takes the first argument and inserts int into the second as " " separated tokens. If the second argument is too small -- the function recurses, and resizes the array as needed. The third argument is used to keep
  track of the recursion*/
char ** getArgs( char *input,  char **args, int ct) {
  int adj=(ct-1)*8;//if we recurse, this ensures correct indexes are used
  char *inputcpy=malloc(strlen(input));
  strcpy(inputcpy, input);

  /*Initialize indexes/Prepare for copying*/
  int i; 
  if(ct==1) {
    i=1; // this might throw off later adjusts
    args[0]=" "; //quick hack to ensure all args are used by exec()

  /**Actually do the copying now**/
  char *temp=strtok(NULL, " "); //What if later tokens are longer?

  while (temp != NULL && i<8) {
    temp=strtok(NULL, " ");

  /*If there are more args than we have room for*/

    //is this allocation right?
    moreArgs = (char **) malloc((++ct)*8*sizeof( char *));

    /*Fill moreArgs with args*/
    int j;
    for (j=0; /*j<ct*8 && */args[j]!=NULL; j++) {

    getArgs(inputcpy, moreArgs, (ct) ); //could probably move inc to malloc

  /*Done with too many args problem*/

  return NULL;//(char **) args; //we don't want the global args though
share|improve this question
realloc() is your friend... – Richard J. Ross III Feb 24 '12 at 20:48
I only skimmed the code, but calloc isn't technically guaranteed to initialize pointer types to NULL pointers. It initializes to all-bits-zero, which will mean numerically zero for integers, and NULL for platforms where the null pointer is numerically zero, but even if, at the C language level, zero is guaranteed to produce a NULL pointer, the machine-language level representation of a NULL pointer is not guaranteed to be "all-bits-zero." I don't know if your code relies on calloc-ed pointers being NULL, but if it does it's technically incorrect, if unlikely to break in practice. – Chris Lutz Feb 24 '12 at 20:48
@ChrisLutz wow, the things we have to deal with... – Seth Carnegie Feb 24 '12 at 20:51
up vote 1 down vote accepted

The reason it's not behaving the way you want it to is because you're passing args by value.

char ** getArgs( char *input,  char ***args, int ct);

This way, you can reassign args.

Edit: Make sure you free args before reassigning. Edit 2: That was too specific of me. Make sure you free all the objects that you dynamically allocated. There's quite a few that you have just left.

As a side note, you're calling execvp from the parent process, and calling wait from the child process. It should be the other way around. Also, you should avoid using fork with execvp and use system instead. You get the benefit that it's an atomic operation.

share|improve this answer
Thanks for responding. I have a few follow ups (sorry, I'm just learning C). Ok so under that declaration, do I pass &args or do I have to declare args as char *** and then refer to it as *args otherwise?Also, after a whole semester of C, I only just found out about memory leaks. As far as I can tell, there are only three dynamically allocated objects: temp, args, and moreArgs. Is there anything else I should be free-ing?Finally, could you be clearer about system vs fork? If I don't fork, will execvp overwrite the parent program? – user1209326 Feb 24 '12 at 21:20
You would pass &args, and when accessing it in the function body, you would have to dereference it, e.g. *args = moreArgs;. The objects with allocated storage are args, moreArgs and inputcpy. temp isn't one of them. You can tell because they're initialized by calling malloc()/calloc(). I'm saying you should call system() instead of forking, exec'ing and wait'ing yourself. The benefit is that it's an atomic operation. – someguy Feb 26 '12 at 10:59
Thanks for your help. I ended up cutting my losses and rewriting with realloc(), but your posts have been really helpful! – user1209326 Feb 26 '12 at 17:19

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