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Upon compiling and running this small program to reverse a string, I get a Segmentation Fault before any output occurs. Forgive me if this is an obvious question, I'm still very new to C.

#include <stdio.h>

int reverse(char string[], int length); 

int main() {
char string[] = "reversed";

  printf("String at start of main = %s", string);
  reverse(string, sizeof(string));
  printf("%s\n", string);

return 0;


// Reverse string 
int reverse(char string[], int length) {
 int i;
 char reversed[] = {};
 int temp;

 for(i = 0; i < length; ++i) {
 temp = string[i];
 reversed[length - i] = temp;

 return 0; 
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The code is not compilable as C, since empty {} is a syntax error in C. The code is not compilable as C++ either, since it attempts to create a zero-sized array. What language is this supposed to be really? –  AndreyT May 13 '10 at 20:44
@AndreyT - It's suppost to be C. –  Leda May 13 '10 at 20:47
@Lord Torgamus: Heard. In future I will try to remember to link to this: meta.stackexchange.com/questions/5234/… –  Mark Byers May 13 '10 at 20:52
@AndreyT. It is clear Leda has only just begun learning C. Expecting him/her to know the differences between C/C++ standards etc is not reasonable. So I would say the 'C' tag gets precedence over any C++ constructs used in the code. Edit: I see Leda answered the question. –  Aryabhatta May 13 '10 at 20:54
I think there are enough "why does this segfault" questions to warrant creating a new site. –  new123456 Oct 27 '10 at 12:07
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4 Answers 4

up vote 6 down vote accepted

Because of this:

First you create an array with zero elements:

char reversed[] = {};

And later you attempt to write to that array beyond its bounds:

reversed[length - i] = temp;


The above means that you need to allocate memory whose size is only known at runtime (it's length). The usual C-style way of doing this is... by pushing the burden of memory allocation to your caller:

int reverse(const char* string, char* destination, int length);

This function would write to a buffer provided by the caller, who now also must ensure that:

  1. The buffer is large enough
  2. The memory for buffer gets freed when it should be
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@Moron, I think you say my initial post which was wrong. Edited it in the meantime. –  Jon May 13 '10 at 20:37
There's no such thing as "array with zero elements" neither in C nor in C++. Moreover, in C there's no such initializer as {}. In C at least one expression is always required between the {}. –  AndreyT May 13 '10 at 20:40
Yes. I deleted my comment after seeing your edit. –  Aryabhatta May 13 '10 at 20:47
@AndreyT: you 're correct. It's been ages since the last time I used C or allocated an array on the stack, so I didn't catch that. When saying "zero-length array", I had in mind this: char* buf = new char[length]; which is legal C++ even if length is zero. –  Jon May 13 '10 at 20:50
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While it works in this case, generally , sizeof(string) should be `strlen(string). Usually, when using char pointers, the sizeof operator will just return the size of a single pointer - and not the whole array. . In reverse(), Your reverse array is not allocated, you can allocate it like this:

char* reversed = (char*) malloc( length+1 );

We add one to the length to account for the null char at the end of the string.

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Thank you. I can see exactly what was wrong now. –  Leda May 13 '10 at 20:43
-1: sizeof(string) won't return the size of the pointer. It will return the size of the array in bytes. Try it. –  Aryabhatta May 13 '10 at 20:48
That's right. I was thinking more of the general case. I've updated my post to reflect that. –  mdma May 13 '10 at 21:19
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Your code is not compilable as C. The declaration

char reversed[] = {};

is invalid. There's no such thing as empty {} initializer in C language (it exists only in C++). Moreover, an empty initializer wouldn't make any sense in an array declaration of unspecified size (which makes this code non-compilable as C++ either), since there's no such thing as zero-sized array neither in C nor in C++.

Either post real code, or retag your question if this is supposed to be C++.

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+1, I didn't even catch the tag. –  Pops May 13 '10 at 20:43
+1 for pointing out it is not 'C'. –  Aryabhatta May 13 '10 at 20:56
It is however allowed in gcc -- gcc.gnu.org/onlinedocs/gcc/Zero-Length.html -- and doesn't even give a warning with -Wall. –  Paul Stephenson May 14 '10 at 9:30
@Paul Stephenson: What should be a warning and what shouldn't be is always a gray area, but the fact that even -Wall does not result in a warning indicates one more time that the default behavior GCC is quite loosely related to real C. –  AndreyT May 14 '10 at 15:33
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In C you have to think carefully about the memory taken up by your variables and arrays.

When you write char reversed[] = {} you are creating a brand-new zero-sized array. (This is apparently not strictly correct C, but it is what is happening with the questioner's gcc compiler. After all, the report is of a segmentation fault at runtime rather than a syntax error at compile time.)

The statement reversed[length - i] then tries to write data to an element of the array you don't have space for, because reversed has no size.

You have two options:

  • Create a reversed array of the proper size (perhaps by using malloc as @Bob Kaufman says) and then return it from the reverse() function.
  • Reverse the string "in place", by shifting the characters around within string itself.

Reversing the string in place is likely to be preferable -- if you allocate memory dynamically then you have to worry about freeing it again, which can be a pain.

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No, you don't "create brand-new zero-sized array". In C the {} initializer is always a syntax error. On top of that zero-sized arrays are always prohibited in C. –  AndreyT May 13 '10 at 20:42
The questioner's code compiles cleanly for me with gcc, and printing sizeof(reversed) outputs zero. Is this a gcc extension? –  Paul Stephenson May 14 '10 at 9:28
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