So here's what I am trying to do; connect two arrays of characters together through using memcpy. Part of this is because I am using u_chars but for this example, we will just use characters and use strlen to get the length of a string for simplification's sake.

Essentially, the steps that steps I take are:

  • Create a new pointer that will represent my combined strings (char* name)
  • Pass the address of the pointer into a function (so a reference to a pointer) along with the two pointers that I want to add together
  • Set a dereferenced uninitialised pointer to be the memory address of a new memory allocation of the size I want (this works fine)
  • Copy the first set of data into this new location (this also works fine)
  • Copy the second set of data into this new location, plus a few places that represent the lengthof the first set's data (this also works fine)
  • Set the last character of this pointer's data to be a null-terminating character ('\0)

...and this is where everything dies. I get an access violation error when trying to write to location 0x00000000. However, the pointer definitely exists. Below is the code (written in Visual C++ using VS2013)

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

char * name;
char * firstpart;
char * lastpart;

void addstrings(char ** result, char * body, char * prefix)
   int x = strlen(prefix);
   int y = strlen(body);

   *result = (char *)malloc((x + y + 1) * sizeof(char));

   memcpy(*result,      prefix,  x);
   memcpy(*result + x,  body,    y);

   *result[x + y] = '\0';     // Exception is thrown writing to memory address 0x00000000

int _tmain(int argc, _TCHAR* argv[])
   firstpart = "stack";
   lastpart = "overflow";

   addstrings(&name, firstpart, lastpart);
   return 0;

The following replacement allows the program to continue, which on inspection shows me that the string exists

result[x + y] = '\0';

But this will not set any value; which is probably correct as "result" in this instance is still only the reference to the pointer and not the pointer itself (I want to modify the contents at the address of this pointer, which itself is a pointer, but I need to de-reference it by one level first).

To be clear; I know that there are ways around this (strcpy if I am using string.h) but this wouldn't work if I am using u_char types or something like this. Additionally, I could modify the above as follows, which works fine:

char * addstrings(char * result, char * body, char * prefix)
   int x = strlen(prefix);
   int y = strlen(body);

   result = (char *)malloc((x + y + 1) * sizeof(char));

   memcpy(result,      prefix,  x);
   memcpy(result + x,  body,    y);

   result[x + y] = '\0';

   return result;
  • Return type is now char *
  • Takes a pointer to the output string rather than a reference to the pointer
  • Removed all dereferencing in the function
  • Returns the pointer

The function call now looks like:

name = addstrings(name, firstpart, lastpart);

And this will work fine. But I am just curious as to what the issue really is and why I could not assign a value to an element in the array that the pointer is pointing to (yet I can in the second example).

Any comments or thoughts are greatly appreciated,


  • A tip to improve your code: use char const * instead of char * whenever it is pointing to something that cannot, or is not going to be, modified. So in this code, body, prefix, and anything that points to a string literal. Also, size_t is the proper type for the return of strlen
    – M.M
    Dec 19, 2014 at 20:33
  • You have tagged both C and C++. In general it's a bad idea to try and write code which is correct in both C and C++ as you get the worst of both worlds. If you're in C++ don't use malloc at all, and if you are in C then read here.
    – M.M
    Dec 19, 2014 at 20:36
  • Just as an aside; would using malloc in this way not be legitimate in C++ if you had some weird character types (u_char, for example)?
    – Trevelyan
    Dec 20, 2014 at 0:39

1 Answer 1


Just add this

(*result)[x + y] = '\0';

array subscript [] operator has higher precedence than dereference operator *.

Also notice that the second version of your function is ok, but you don't need to pass

char *result

as a parameter.

In the first case the indirection is performed first by the [] operator and then you are left with an invalid pointer.

  • This is brilliant, why is it marked down? It is exactly right - thanks, I had no idea about the array subscript having precedence like this. I was actually realising a part of this because result[1] was the prefix pointer and result [2] was the body pointer. Fixed with the braces, many thanks again :))
    – Trevelyan
    Dec 19, 2014 at 20:08
  • As a bit of an explanation, the original statement *result[x + y] = '\0'; is equivalent to *(result + x + y) = '\0';. That is, it advances result by (x + y * sizeof(char *)) bytes and attempts to dereference that address. Dec 19, 2014 at 20:08
  • Yes - and so result[2] = '\0' would set the "body" variable to null and still "result" would be the original value. *result[2] attempts to set the dereferenced value of body to null which makes it get angry. Thanks for this guys :)
    – Trevelyan
    Dec 19, 2014 at 20:15

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