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In the next code:

char i,*p;
i = 65;
p = &i;
p = (char *) 66;
(*p)++;
printf("%d",p);

I got segmentation fault. I didn't understand why. I have a pointer to a char (in this case char 66=C), and then I change it value, which is also 66 - to 67. Are the values of char "protected" from this change? Is it happen also with others, except char?

I tried to understand the idea that stand behind this thing (and not only fix it). Thanks.

2 Answers 2

7

Here is the problem:

p = (char *) 66;

It should be:

*p = 66;

p is a pointer to a char, so you cannot assign values like 66 to it. You can derefernce p in order to assign values to where the pointer "looks".

If you want to print the value where p points to, you must use again the dereference operator (*) like this:

printf("%d", *p); // prints the value where p points to

If you want to print the pointer address you can do this:

printf("%p", p); // prints the address where p points
3
  • (Char) 66??? Why is is Char capitalized? And why use a cast here at all instead of a plain *p = 66? Jun 20, 2011 at 20:29
  • Char was capitalized my mistake. removed it anyway.
    – insumity
    Jun 20, 2011 at 20:31
  • The OP probably also wants to use *p in the printf() call.
    – Carl Norum
    Jun 20, 2011 at 20:31
1

A character pointer doesn't store a character, it stores an address where a character can be found. So

p = (char *)66;

says that p points to address number 66, where a character can be found. Odds are that address isn't even accessible by your program, much less that it stores a character.

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