I've read several discussions of passing char * in C.

stackoverflow: passing-an-array-of-strings-as-parameter-to-a-function-in-c
stackoverflow: how-does-an-array-of-pointers-to-pointers-work
stackoverflow: whats-your-favorite-programmer-ignorance-pet-peeve
drexel.edu: Character arrays

Many of them include discussions of arrays, but I want to stay away from that.

I'm writing a sample program to teach myself about the passing of char * and char ** in C. This is an exercise in passing char *, without using (pointers to) arrays. Also no concerns for execution efficiency. :-)

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

void get_args_works(int, char **, char **);
void get_args_broken(int, char **, char *);
char *get_string(int, char **);

int main(int argc, char **argv)
  char *string_works;
  char *string_broken;

  get_args_works(argc, argv, &string_works);
  get_args_broken(argc, argv, string_broken);

  printf("in main string_works (%p) = %s\n",string_works,string_works);

  printf("in main string_broken (%p) = %s\n",string_broken,string_broken);

void get_args_works(int argc, char **argv, char **string)
    *string = get_string(argc, argv);
    printf("in get_args_works %p string %s\n",*string,*string);

void get_args_broken(int argc, char **argv, char *string)
  string = get_string(argc, argv);
  printf("in get_args_broken %p string %s\n",string,string);

char * get_string(int argc, char **argv)
  int i;
  char *string;
  string = malloc(40);

  // placeholder in case -s switch not found below
  strcpy(string,"-s switch not found below");

  for(i = 0; i < argc; i++)
      if(argv[i][0] == '-')
            case 's':
              // release above malloc(40) for "-s switch not found below"
              // make room for storing variable
              string = malloc(strlen(argv[++i]) + 1);
              // the argv just after -s
              strcpy (string,argv[i]);
  return string;

You can also view the same code on github

The above code is somewhat self documenting. main() declares two char * variables, and passes them as parameters to their respective get_args() functions.

Each get_args() function calls char * get_string(int, char **), using the exact same call (but different way to collect the return value).

get_string() works fine; it does a malloc() and returns the pointer back to the calling function. That code works, and each get_args() function receives the return value as I expect.

But then, when the get_args() functions return to main(), why does the dereferenced pointer value get back to main (from get_args_works(), but not the pointer's value (from get_args_broken())?

(i.e. I can see that if I dereference the pointer (&string_works) when sending as a parameter, it works. But why? Isn't char * string_broken already a pointer? Why does it need the "extra" dereference when sending as a parameter?)

I'm hoping for a winning answer that explains how you (yes, you) conceptualize sending char * as a parameter vs receiving it as the function's return value.

2 Answers 2

int get_args_broken(int argc, char **argv, char *string)
  string = get_string(argc, argv);
  printf("in get_args_broken %p string %s\n",string,string);

You're only modifying the string local (automatic) variable. That's not visible to the caller in any way. Note that this means you're freeing a wild pointer in main.

It's wrong for the same reason:

int get_sum(int sum, int a, int b)
  sum = a + b;

is; the parameter is copied by value. Also, you're not returning an int (as you declared you would).

int get_args_works(int argc, char **argv, char **string)
    *string = get_string(argc, argv);
    printf("in get_args_works %p string %s\n",*string,*string);

is correct (except the missing return). You're not modifying string, which would be pointless. You're modifying the object at the location in string, which in this case is a char *.

EDIT: You would need to triple * the argv if there was a function calling main, and you wanted to set that function's variable to a different char **. E.G.

void trip_main(int *argc, char ***argv)
  *argc = 10; 
  *argv = malloc(*argc * sizeof(char *));

void caller()
  char **argv;
  int argc;
  trip_main(&argc, &argv);
  • hmmm. I guess that may be a good simple way to understand it. It doesn't talk about char * in any way. but then why don't we need to triple * the argv? hmmmm. Nov 22, 2010 at 6:45
  • OMG !!! How did I miss the invalid return type? ? I've been composing this question for days...!!!! d'oh!!!! Nov 22, 2010 at 6:47
  • 2
    @ThunderRabbit: time to learn how to turn on more warnings from your compiler, or get a better compiler. If your compiler does not complain about functions declared to return a value that return without returning a value, it is ... well, not precisely broken, but not being as helpful as it should be. Compiler warnings are your friend - listen to it speak, and make sure it is verbose. With GCC, a good starting point is '-Wall'; I usually use '-Wall -Wextra -Wmissing-prototypes -Wstrict-prototypes -Wold-style-definition' (the last because I work on archaic code). '-Wshadow' is good too... Nov 22, 2010 at 16:08
  • Thanks, Jon; I am using gcc, so I'll be sure to check out the -W options. Nov 23, 2010 at 13:07

One of the needs to use Pointer to a pointer (here get_args_works()) is to modify (or return) more than on variable from a function, as in C it's not possible to return more than one variable.

get_args_works() works 'coz, you are passing pointer to a pointer & a reference to it is there in your main().

But in get_args_broken() you are passing just a pointer. Nothing wrong here, now you do malloc() & return back the memory allocated string to get_args_broken(), still nothing wrong here. But now, this mem allocated string is local & main() does not have a reference to this var. So when you dereference char *string_broken; in main() it might cause undefined behavior.

Hope this's clear.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.