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I've dynamically allocated a structure, conceptually very similar to a matrix, to hold a set of strings. I've encountered a problem while trying to free the memory. My code looks like this:

# include <stdio.h> 
# include <string.h>
# include <malloc.h>
# define SIZE 2

typedef struct fork{
char** dataPointersArray;
char*  dataArray;

int main(int argc, char* argv[]){

fork forkDS;
int i;
char* dataArrayPtr;
unsigned char data[255] = "some data"; /* this is actually a function's output */
int PtrIndex;

/* allocate memory for the arrays */
    forkDS.dataPointersArray = (char**) calloc(SIZE ,sizeof(char*));

    if(forkDS.dataPointersArray == NULL){
        printf("couldn't allocate memory \n");


    forkDS.dataArray = (char*) calloc(SIZE, 255);

    if( forkDS.dataArray == NULL){
        printf("couldn't allocate memory \n");

    dataArrayPtr = forkDS.dataArray;
    for(i = 0; i < SIZE; i++){
    /* update the dataPointers Array */
        forkDS.dataPointersArray[i] = dataArrayPtr;

        /* copy data into data array */

        dataArrayPtr[255] = '\0';

        /* update the pointer of the data array */
        dataArrayPtr = dataArrayPtr + 256;

    for (PtrIndex = 0; PtrIndex < 2; PtrIndex++) {
        if (*(forkDS.dataPointersArray + PtrIndex) != NULL) {
            *(forkDS.dataPointersArray + PtrIndex) = NULL;

    /* DEBUG comment -  this 2 lines works */
    forkDS.dataArray = NULL;

    /* DEBUG comment - the next line fails */
    forkDS.dataPointersArray = NULL;

return 0;

So the structure actually contains 2 arrays, one of pointers to strings, and the other one contains the strings aligned one after the other, separated by a terminating \0.

The code works fine, and the for loop in the end works as well. The first call to free also works. The problem is that the last call to free fails. Although trying to search all possible data on the issue, all the examples I've found regarded the case where the second array, which holds the strings, is allocated step by step in a for loop, and freed afterwards in a for loop as well.

I wanted to avoid using dynamic allocation in a loop, and therefore my code looks different.

Does anyone know what the problem is?


Thanks a lot to all of you who answered me. Eventually, the bug was solved. The problem was that the dataPointersArray was filled with more than SIZE elements in some other piece of code, which seemed innocent at first, and actually caused the free call to fail.

Thanks again for the comments! Shachar

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Please don't use fork as the name for your data type, you will confuse many *nix programmers! fork(2) is used for forking new processes. –  Adam Rosenfield Jul 19 '11 at 22:05
Also, it's somewhat subjective, but many C programmers (including me) consider explicitly casting void * (like in the return value of malloc) to be bad practice. –  Chris Lutz Jul 19 '11 at 22:14
How does it fail? SIGSEGV? non-zero status code? –  Dataknife Jul 19 '11 at 22:15
This isn't causing your problem, but setting dataArrayPtr[255] to \0 isn't necessary, since you used calloc to allocate the memory. If you don't want to pick up junk after data's null terminator, use strncpy to copy data, and just end one byte short of your max length (leaving the null terminator from your calloc). –  tomlogic Jul 20 '11 at 0:24

2 Answers 2

You are allocating SIZE*255 bytes, but using SIZE * 256 bytes:

forkDS.dataArray = (char*) calloc(SIZE, 255); 
dataArrayPtr = forkDS.dataArray;   

//SIZE TIMES loop:
    dataArrayPtr = dataArrayPtr + 256; 

So when you are NULLing the pointers, you probably overwrite control data placed past the end of the array by malloc that free is looking for.

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Using a macro for that value (255 or 256) would be a good idea. –  tomlogic Jul 20 '11 at 0:21

You allocated the space for an array consisting of SIZE lines with 255 characters each. The highest index on each line therefore is 254 = 255 - 1. As you write the \0 character, you write it at the beginning of the next line. After the last iteration, you would be off by SIZE bytes.

Just another detail: If any of the memory allocations failed, the program would only print its error messages, but it won't stop causing a SEGFAULT later.

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