my code segfaults and I don't know why.

 1  #include <stdio.h>
 3  void overwrite(char str[], char x) {
 4    int i;
 5    for (i = 0; str[i] != '\0'; i++)
 6      str[i] = x;
 7  }
 9  int main(void) {
10    char *s = "abcde";
11    char x = 'X';
12    overwrite(s, x);
13    printf("%s\n", s);
14    return 0;
15  }

The gdb debugger tells me, that problem is on the line 6, where I want to store a char, into c-string (if I use lvalue pointer dereferencing, it's the same problem.) This is what he says:

(gdb) run
Starting program: /tmp/x/x 

Breakpoint 1, overwrite (str=0x8048500 "abcde", x=88 'X') at x.c:5
5         for (i = 0; str[i] != '\0'; i++)
(gdb) s
6           str[i] = x;

Program received signal SIGSEGV, Segmentation fault.
0x080483e3 in overwrite (str=0x8048500 "abcde", x=88 'X') at x.c:6
6           str[i] = x;
(gdb) q

I am learning from K&R-C book and this is simplified example from chapter 2.8 (the remove function). I have no idea where is the problem.


because char*s = "abcde"; creates string in readonly memory. try

char s[] = "abcde";

EDIT: explanation: char* is pointer, and "abcde" is created in readonly memory -> immutable.

char[] is array, which is wholly stored on stack and initialized from the memory, so is mutable


When you define a pointer to a string literal, declare it as const char *.

const char *s = "abcde";

That way, your compiler complains when you try to send that string to the overwrite() function.

const char *s = "abcde";
char t[] = "fghij";
char x = 'X';

overwrite(s, x); /* oops */
overwrite(t, x); /* ok */

Not disagreeing, but just to elaborate: Consider what would happen if the compiler allowed this. You could write:

char *s1="abcde";
char *s2="abcde";

If the compiler recognizes that the two literals are the same and re-uses them, but then also allows line 3, your output would be:


Which is probably not what you would want. This would be particularly mysterious if the two literals were in widely-separated parts of the program.

  • This is why in .Net strings are immutable. It does reuse the strings through something called "string interning". – Tom Ritter Sep 10 '09 at 15:20
  • @Tom Ritter - Yep, that's why .Net is a completely different platform with completely different goals than C. – Chris Lutz Sep 11 '09 at 5:14

Try out:

#include <iostream>
#include <cstring>

using namespace std;

void overwrite(char[], char);

int main(void)
        char *s = strdup("abcde");
        char X = 'X';
        overwrite(s, X);
        cout << s << endl;

                delete [] s;

        return 0;

void overwrite(char str[], char x)
        for(int i=0; str[i]!='\0'; i++)
                str[i] = x;
  • Question is tagged as C ... and if you're going to check for s being NULL you could check immediately after the strdup() call, rather than using an invalid pointer. – pmg Sep 10 '09 at 16:36
  • also strdup does a malloc() ... calling delete[] on it is wrong. – Nicholaz Nov 17 '09 at 14:37

my guess is the parameter definition where you define the type as an array of chars. While you are passing a pointer to a char

You could try changing the first line to this:

 void overwrite(char *str, char x) {

A char array and a char pointer are not semantically the same.

  • char str[] and char *str are equivalent as function arguments. – sepp2k Sep 10 '09 at 14:34
  • You're wrong, char str[] decays to char * when used in a parameter list. – avakar Sep 10 '09 at 14:35
  • ok.... But I'm right that they are different in some cases right? Could you elaborate in which case it is different? – Toad Sep 10 '09 at 14:36
  • @reinier, no they are the same as function parameters. Both have type char*, none of them is an array (although the first is declared as an array - the compiler won't make it an array). – Johannes Schaub - litb Sep 10 '09 at 15:00
  • i meant cases other than as a function parameter. I understand now that they are the same as used as a parameter ;^) – Toad Sep 10 '09 at 15:04

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