In the code below, the line:

*end = *front;

gives a segmentation fault. I asked a similar question here but I'm not sure if this is because I have two copies of num. Please explain why it's seg-faulting. Thank you.

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

char* getPalin(char* num);

int main()
    char* num = (char*)malloc(100);

    num = "123456";

    printf("%s\n", getPalin(num) );

    return 0;

char* getPalin(char* num)
    int length = strlen(num);

    if ( length % 2 == 0 )
        char* front = num;
        char* end = num + strlen(num) - 1;  //pointer to end

        while( front != num + (length/2) )  //pointers not middle yet
            *end = *front;

            printf("%c", *end);


    return num;

These two lines:

char* num = (char*)malloc(100);
num = "123456";

have the following effect.

The first allocates 100 bytes and sets num to point to those bytes.

The second changes num to point to the string "123456" which is almost certainly in read-only memory.

Any attempt to change the contents of read-only memory will result in a segmentation violation. You need to copy the string into the malloc'd num before attempting to change it, with:

strcpy (num, "123456");

That's the line you should have where you currently have:

num = "123456";


strncpy(num, "123456", 100);

instead of

num = "123456";
  • sorry, not sizeof(num), but the size of the allocated memory, that is 100. I.e. strncpy(num, "123456", 100); – Konstantin Jun 3 '09 at 6:31
  • 3
    OP asked for explanation but you gave just a solution. And never forget to manually add null-terminator after strncpy because it is not guaranteed that strncpy adds it. I know it is not relevant in this example because "123456" is shorter than 100 bytes but if you decided to use strncpy rather than strcpy, use it properly - you avoided one potential problem (buffer overrun) but introduced other one (unterminated string). – qrdl Jun 3 '09 at 6:38
  • @qrdl - As long as the destination size specified in strncpy is larger than the string length, strncpy will automatically pad out with null characters. It is only if the destination size is specifed as being less than the string length to be copied that the null terminator may be missed. Another piont is to remember that strncpy will NOT check that there is sufficient space in the destination memory. So I suppose strncpy(num,"123456", sizeof(num)) would be more correct. – ChrisBD Jun 3 '09 at 6:55
  • num is a "char*" so sizeof(num) will be 4 (or 8 if you've got better hardware than me). – paxdiablo Jun 3 '09 at 7:03
  • 1
    @ChrisBD - Read my comment more carefully. I wrote that I know that it is not important in this case. And just FYI - sizeof(num) is sizeof(char ) in this case because num is declared as char in parameter list. – qrdl Jun 3 '09 at 7:05

As per Konstantin's answer.

You have already allocated memory for num with the malloc statement.

If you hadn't then you could get away with:

char* num = "123456";

Which would define and allocate memory on the fly but it would most likely be allocated as a constant and thus read only.

Using strncpy rather than strcpy to copy "123456" will ensure that any extra space beyond the end of string null terminator is also initialised to null, as long as you specify n as being 100 (for your example). Otherwise without initialising the memory allocated by malloc to null (memset(num, 0, 100)) then it is conceivable that you could step beyond the end of the string.

Oh almost forgot. It is advisable to use strcpy_s or strncpy_s as they are more secure, although for your code it won't matter.

  • I actually consider those two _s() functions to be a crutch for people who don't know how to code defensively [i.e., check preconditions first - I've never even found the need to use strncpy() and still my code is as "secure" as any using the _s() variants]. On top of that, they're not part of the standard yet. – paxdiablo Jun 3 '09 at 7:06
  • Hence the reason why I said advisable. It never ceases to amaze me how much commercial software leaves itself open to buffer overrun attacks. – ChrisBD Jun 3 '09 at 8:01

The reason for the error is :

  char* num = (char*)malloc(100);

In this line you have declared num as a pointer to an array or pointer to its first element not as a string.

 num = "123456";

This line you have used num as you declared it as a string. This is violation of segmentation and hence the seg fault. The preferrable(correct) syntax for your code is :

   char num[100];
   strcpy(num,"123456"); //Even if you use num="123456"; here it would still be wrong


  char* num = (char*)malloc(100);


  char num[100]={'1','2','3','4','5','6'};

Any of these would do your work.

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