Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I've been having trouble the past couple hours on a problem I though I understood. Here's my trouble:

void cut_str(char* entry, int offset) {
    strcpy(entry, entry + offset);

char  works[128] = "example1\0";
char* doesnt = "example2\0";


cut_str(works, 2);
printf("%s\n", works);

cut_str(doesnt, 2);
printf("%s\n", doesnt);

// output:
// ample1
// Segmentation: fault

I feel like there's something important about char*/char[] that I'm not getting here.

share|improve this question
This question is asked here frequently. Please see, e.g., stackoverflow.com/questions/10186765/… and stackoverflow.com/questions/4090434/… –  Jim Balter Jun 29 '12 at 2:17
possible duplicate of What is the difference between char s[] and char *s in C? –  Bo Persson Jun 29 '12 at 10:32

3 Answers 3

The difference is in that doesnt points to memory that belongs to a string constant, and is therefore not writable.

When you do this

char  works[128] = "example1\0";

the compiler copies the content of a non-writable string into a writable array. \0 is not required, by the way.

When you do this, however,

char* doesnt = "example2\0";

the compiler leaves the pointer pointing to a non-writable memory region. Again, \0 will be inserted by compiler.

If you are using gcc, you can have it warn you about initializing writable char * with string literals. The option is -Wwrite-strings. You will get a warning that looks like this:

 warning: initialization discards qualifiers from pointer target type

The proper way to declare your doesnt pointer is as follows:

const char* doesnt = "example2\0";
share|improve this answer
"the compiler copies the content of a non-writable string into a writable array" -- Not quite. "example1\0" here is not a non-writable string, it is string literal -- a purely syntactic element. In this context it is being used as an initializer. –  Jim Balter Jun 29 '12 at 2:05
"You should have received a warning about the char *doesnt = ... line" -- No, really, not. No compiler does that, fortunately. –  Jim Balter Jun 29 '12 at 2:14
@JimBalter g++ does: "warning: deprecated conversion from string constant to ‘char*’". That's not quite a C compiler, but I wasn't making it up :) –  dasblinkenlight Jun 29 '12 at 2:29
Right, this is a C question (and answer), not C++. –  Jim Balter Jun 29 '12 at 2:44
@JimBalter I edited the answer to explain how you get the warning from gcc. So much for the "No compiler does that", I guess... –  dasblinkenlight Jun 29 '12 at 3:05

This allocates 128 bytes on the stack, and uses the name works to refer to its address:

char works[128];

So works is a pointer to writable memory.

This creates a string literal, which is in read-only memory, and uses the name doesnt to refer to its address:

char * doesnt = "example2\0";

You can write data to works, because it points to writable memory. You can't write data to doesnt, because it points to read-only memory.

Also, note that you don't have to end your string literals with "\0", since all string literals implicitly add a zero byte to the end of the string.

share|improve this answer
No, works is an array object, not a pointer. (Its name decays to a pointer expression in most contexts.) –  Keith Thompson Jun 29 '12 at 1:25
"This allocates 128 bytes on the stack" -- we don't know the storage class; it could be extern. And as Keith notes, arrays are not pointers. (One consequence is that sizeof(works) != sizeof((char*)works)). –  Jim Balter Jun 29 '12 at 2:08

The types char[] and char * are quite similar, so you are right about that. The difference lies in what happens when objects of the types are initialized. Your object works, of type char[], has 128 bytes of variable storage allocated for it on the stack. Your object doesnt, of type char *, has no storage on the stack.

Where exactly the string of doesnt is stored is not specified by the C standard, but most likely it is stored in a nonmodifiable data segment loaded when your program is loaded for execution. This isn't variable storage. Thus the segfault when you try to vary it.

share|improve this answer
"The difference lies" -- There are other, significant, differences between arrays and pointers. The issue here really isn't about that, but about the fact that doesnt points to a string constant, and the standard says that the results of modifying it are undefined. –  Jim Balter Jun 29 '12 at 2:15

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.