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How would I get my replace_char function to work properly?

The way that I am trying it in the function below returns segmentation faults using gcc in Ubuntu.

I have tried other ways, but each time I try to change the value, I get a fault.

int main (void)
  char* string = "Hello World!";

  printf ("%s\n", string);
  replace_char(string, 10, 'a');
  printf ("%s\n", string);

void replace_char(char str[], int n, char c)
  str[n] = c;
share|improve this question
It won't let me edit, but you missed your opening quotes after the printfs. – Dave Sep 28 '11 at 21:59
up vote 5 down vote accepted


To get the 'suggestion' of editing string in place, you can edit the pointer inplace:

void replace_char(char*& str, int n, char c)
  str = strdup(str);
  str[n] = c;

int main()
    char* string = "Hello World!";
    string = replace_char(string, 10, 'a');

    // ...

Note you now have to remember to call free on the string after calling this. I suggest, instead, that you do what I suggested before: wrap the literal in strdup if required. That way you don 't incur the cost of allocating a copy all the time (just when necessary).

The problem is that "Hello World' is a const literal char array.

const char* conststr = "Hello World!";
char * string = strdup(conststr);

i assume the problem will be gone

Explanation: Compilers can allocate string literals in (readonly) data segment. The conversion to a char* (as opposed to const char*) is actually not valid. If you use use e.g.

gcc -Wall test.c

you'd get a warning.

Fun experiment:

Observe here that (because it is Undefined Behaviour) compilers can do funny stuff in such cases:

http://ideone.com/C39R6 shows that the program wouldn't 'crash' but silently fail to modify the string literal unless the string was copied.

YMMV. Use -Wall, use some kind of lint if you can, and do unit testing :){

share|improve this answer
added a fun experiment that highlights the Undefined in Undefined Behaviour – sehe Sep 28 '11 at 22:07
PS: did you note the other instance of Undefined Behaviour that I fixed in the sample here ideone.com/C39R6 ? (hint: assuming C89) – sehe Sep 28 '11 at 22:10
I understand that it is a literal char array, but I would like to edit it and replace it in that function. – Kyle Uithoven Sep 29 '11 at 17:18
@KyleUithoven: good luck. I suggest you send a letter to you compiler vendor, or better yet to the standards committee... – sehe Sep 29 '11 at 17:23
@KyleUithoven: re Is there a way to copy the value from the literal to char string[] and change the value and put it back into str?: yes it is, the code shows how to. Note that the string value itself is not a constant, just the data pointed to initially. So you can update string to point to the modified data (elsewhere). For the record, I have updated the answer with a demonstration of how you could do this. – sehe Sep 29 '11 at 17:25

There is nothing wrong with your replace_char function. The problem is that you are trying to modify a string literal ("Hello World!") and that's undefined behavior. Try making a copy of the string instead, like this:

char string[] = "Hello World!";
share|improve this answer
""Hello World!" is actually a char const* but its allowed to convert to char* to support legacy code." - actually, this is true for C++ (actually, it's a const char array), but in C literals are defined as non-const char[] that result in UB on modification. – Matteo Italia Sep 28 '11 at 22:03
First, a string literal is an array, not a pointer. It's implicitly converted to a pointer in most contexts, but sizeof "Hello World!", for example, yields the size of the array (12), not the size of a pointer. Second, string literals are const in C++, but not in C. In C, string literals are still non-const (to avoid breaking legacy code), but attempting to modify one is undefined behavior. – Keith Thompson Sep 28 '11 at 22:05
@MatteoItalia: Great minds think alike. – Keith Thompson Sep 28 '11 at 22:06
@MatteoItalia ... and so do ours. 8-)} – Keith Thompson Sep 28 '11 at 22:15
@Matteo Italia, Keith Thompson: Thanks, I edited my answer. I'm C++ biased :P – K-ballo Sep 28 '11 at 22:19

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