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I have a problem with this code. I am using a gcc compiler and when i compile and execute this code i am getting a seg fault. I am just assigning two variables, name_1 as pointer and name_2 as string. When i am trying to provide string input for the two values i am getting a seg fault. This seg fault is always associated with the pointer variable that i am using.

Below i have provided the code and the screenshot of the error.

#include <stdio.h>

int main()
char *name_1 ;
char name_2[10] ;

/*      Getting 2 strings as an input from the user
        and is stored in the pointer variable name_1 and name_2*/
scanf("%s",name_1) ;
scanf("%s",name_2) ;

/*      Printing the values of the varibales 
        name_1 and name_2 in string format      */
printf("\n%s",name_1) ;
printf("\n%s",name_2) ;

printf("\n\n") ;
return 0 ;

Please help me in this code.

Seg fault

share|improve this question
It is not a good idea to alter the question so as to make the answer already provided invalid. It is OK to leave the original — perhaps as a comment — and show a correction; it is not OK just to correct the code and invalidate the answers you've been given. –  Jonathan Leffler Nov 27 '12 at 6:31
Note that if you were using GCC and you compiled with -Wall, you'd have received warnings from the compiler about your mistake. Make sure you do compile with (at least) -Wall if you're using GCC. If you're using some other compiler, then find out how to turn on more warnings. –  Jonathan Leffler Nov 27 '12 at 6:33
Sir, Now i am actually having more doubts. Whenever i am declaring a variable, is it not allocating a space? –  Rajan Chennai Nov 27 '12 at 7:01
The space for name_1 was allocated; it is a char *, so enough space for storing one char pointer was allocated. One part of the trouble is that you never initialized the pointer to point to something. Another part of the trouble is that scanf() not only assumed that the pointer was initialized, it also assumed it was initialized so that it pointed to an area of memory big enough to store the string to be read by scanf(), including the terminating null. By changing the definition of name_1 to, say, char name_1[20], you ensure that there are twenty bytes of space for the string. –  Jonathan Leffler Nov 27 '12 at 7:05
[...continued...] If you change it to: char name_0[20]; char *name_1 = name_0; then you have allocated space for scanf() to store the data in, and initialized name_1 to point to that space. However, you can subsequently change your mind and make name_1 point to a different area (eg name_2) if you want to. Which makes most sense depends on what you're going to do with name_1 after you've read the data. –  Jonathan Leffler Nov 27 '12 at 7:07

4 Answers 4

char *name_1;, is a pointer. Initially, it points to some random garbage. You then ask scanf to place a string at whatever random garbage address name_1 happens to point to when your program starts; this is undefined behavior. A conformant C implementation could have this program work as expected only on Tuesdays if it wants. :)

If you're going to pass a pointer, you have to make sure it points to a valid buffer first.

Moreover, you have a level of indirection violation in your call to scanf -- name_1 is already a pointer. You don't want to pass a pointer to a pointer to scanf; just a pointer.

share|improve this answer
So. Will this work if the name_1 pointer is initially pointed to NULL and then used in scanf? –  Rajan Chennai Nov 27 '12 at 6:28
@Rajan: No. scanf will never allocate the buffer for you. This is one of the reasons that scanf is never safe to use in production code; because allocating a buffer of the correct size is impossible. –  Billy ONeal Nov 27 '12 at 6:30
No; it will crash if char *name_1 = NULL; is passed to scanf(). –  Jonathan Leffler Nov 27 '12 at 6:30
@Jonathan: It will crash if you are lucky -- again, that is undefined behavior, and undefined behavior means a conformant implementation could allocate a buffer for you on Tuesdays, crash on Wednesdays, and format your hard disk on other days. (Of course in this case crash is the most likely scenario :) –  Billy ONeal Nov 27 '12 at 6:31
You're correct; I've over-simplified the comment. No; on most real systems these days it will crash if char *name_1 = NULL; is passed to scanf(), but the behaviour is undefined and the runtime can do anything it likes, including making it look like it more or less worked. The latter case is scary because the code shouldn't work. With a NULL pointer, though, you most often will get a crash. –  Jonathan Leffler Nov 27 '12 at 6:38

The original version of the question contained:

char *name_1;
scanf("%s", &name_1);

The question has since been revised to contain:

char *name_1;
scanf("%s", name_1);

You haven't allocated any space for name_1 to point to. You also passed a char ** (namely &name_1) to scanf() with a %s format which expects to be given a char *.

Possible fix:

int main(void)
    char name_1[20];
    char name_2[10];

    scanf("%s", name_1);
    scanf("%s", name_2);

Another possible fix:

int main(void)
    char name_0[20];
    char *name_1 = name_0;
    char name_2[20];

    scanf("%s", name_1);
    scanf("%s", name_2);
share|improve this answer
Sir, What is the use of doing so? I am gonna point that to an array is a better idea. But i am wssting another 20 bytes for the array variable or maybe wasting a 8 byte for the pointer variable. –  Rajan Chennai Nov 27 '12 at 6:47
You must set name_1 so it points somewhere valid to ensure that your program doesn't crash (or, at least, reduce its chances of crashing — you need to modify the %s formats to %19s or %9s to be reasonably safe). You must have space for scanf() to store the data it reads. If it was a megabyte of space, you'd have cause to be leery. There are few machines where 8 bytes or 20 bytes makes a difference. You're not wasting the space (though the second code fragment certainly uses more); you're using it. I'd go with the first option, but it depends on how name_1 is used afterwards. –  Jonathan Leffler Nov 27 '12 at 6:51
char *name_1 ;
scanf("%s",&name_1) ;

name_1 is a dangling pointer and you are trying to use it, which is incorrect.

share|improve this answer
Is it a dangling pointer or just an uninitialized one? Isn't a dangling pointer one which was once valid but is no longer valid (pointing at a local variable in a function that's since exited, or pointing to dynamically allocated memory that has since been freed)? –  Jonathan Leffler Nov 27 '12 at 6:35
I believe the more accurate name in this case is wild pointer, although people do seem to use the term dangling pointer in this case even though it's not strictly accurate. –  Paul R Nov 27 '12 at 11:13

Your pointer char *name_1 should point to something. As a rule follow

Declaring a pointer variable does not create the type of variable, 
it points at. It creates a pointer variable. So in case you are pointing 
to a string buffer you need to specify the character array and a buffer 
pointer and point to the address of the character array.

Recommended change :

  • You can have your char *name_1 to point to another array of characters or

  • you can have it as an array..

share|improve this answer
Thanks a lot sir. I am much more confused with this and i am fine now. So i can never make it like this. Only by allocating a space, i can use the code.? –  Rajan Chennai Nov 27 '12 at 6:49
By allocating space to array? I think the problem you are facing is understanding pointers. I would suggest you to read this –  Shash Nov 27 '12 at 7:06
Thanks sir. I am facing troubles using pointers. I am normally using arrays instead of pointers. –  Rajan Chennai Nov 27 '12 at 7:13
Read the pdf for which the link is provided. –  Shash Nov 27 '12 at 7:15

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