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Similarities and differences between arrays and pointers through a practical example

I used to take them as the same referring to an array name. But now I have encountered an error, that is, when I use int *path and try to access the members of the array, the compiler gets a SIGSEGV(Which I never remembered to have happened in the code I have written before), but I it's okay when I use int path[].

So why am I getting a SIGSEGV when using int *path ?

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marked as duplicate by Pascal Cuoq, Jonathan Leffler, Lundin, Barmar, Maerlyn Dec 4 '12 at 8:12

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

What's the context? As parameter types? – Pubby Dec 4 '12 at 6:23
The compiler doesn't tell you this, your system does. You probably run out of bounds of your memory you allocated somewhere. – squiguy Dec 4 '12 at 6:24
Code ? Context ? Theoretically, it should not cause any problem. – AsheeshR Dec 4 '12 at 6:25
is it the compiler to get a SIGSEGV? then it is a compiler bug I would say... – ShinTakezou Dec 4 '12 at 6:29
This is impossible to answer without an example. – Lundin Dec 4 '12 at 7:28
up vote 3 down vote accepted

Just guessing you are trying to write to an array you have declared in the two possible, not equivalent, ways:

    int *path = { 4, 5, 3, -1}; /* you're saying this does not work ... when? */
 //  ^ compiler "warning" (error) expected, see edit below
    path[2] = 1;                /* .. when you try this */


    int path[] = { 4, 5, 3, -1};
    path[2] = 1;                 /* but this works */     

In the first case, path is a pointer to a "static" "list" put somewhere. You have just the pointer to it, can read the content, but likely if you try to write on it, you have segmentation fault. (Likely since those data could be in a memory you can write to even if often it happens you can't, but it depends on the system).

In the second case, an area on the stack is reserved, big enough to hold the data, which then are copied into that area. In this case, you can both read and write to it.


as noticed in comments the first example gives warning, you will need a cast (int []) to compile without warning. Then, let us suppose the array is created somewhere where you can't write to, though it could not be the case.

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int *path = { 4, 5, 3, -1}; is ilegal code. For me this only produces warnings (tested with gcc). There is no magic about "readonly" stuff here. – junix Dec 4 '12 at 6:58
you're right of course, I've just mimicked the case of char which is quite different, going to fix it though in this way I won't show the issue of the OP... waiting for my mind to be awake – ShinTakezou Dec 4 '12 at 7:05
:-) Yeah, it's a different story with char * and char ... [] Good morning ;-) – junix Dec 4 '12 at 7:09
(or OP to give details about his code) (7.15 am when I wrote it - still way far from being awake though:) – ShinTakezou Dec 4 '12 at 7:18
I'm affraid the typecast suggested in the edit above will not solve the problem rather than make it worse: This only removes the warning but still places the value of the first element in path so path points to 0x4 in your example. After thinking it through I think there is no way to initialize a pointer directly with an array... The only way doing this is int path[] = { 4, 5, 3, -1};. But fortunately you can use path then as a pointer too: int *path2 = { 4, 5, 3, -1}; with no warning. The only thing is that you have to indicate the array end somehow (like 0 termination) – junix Dec 4 '12 at 7:25
int *path = { 4, 5, 3, -1}; 

when you do the above the data will be stroed in read only memory. so when you try to change any index using that pointer,you will be getting a sigsegv.

But when you do

int path[]={...};

It will be stored in static memory which is not read only, where you can modify the data in the array

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"int *path = { 4, 5, 3, -1};" is simply ilegal code and produces warnings. This has nothing todo with placing something in readonly memory – junix Dec 4 '12 at 6:54
  • int path[]: path points actual array
  • int *path: path is just a memory pointer. The memory location of path might not hold actual array.

I bet you are trying mktemp() with char *path. I have done many times. :-( The reason for this SEGV is explained by other people.


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Actually according to Mr. Kernighan and Mr. Ritchie there is no difference between these two. So whatever you did wrong, when "doing this many times" it was not the notation. – junix Dec 4 '12 at 6:54
I dump from Expert C Programming: extern int *x; vs extern int y[];. Two declarations are different. The former declares x to be a pointer to int; the latter declares y to be an array of int of unspecified size. - ANSI C Standard – cwyang Dec 4 '12 at 6:58
I dump from "The C programming Language" by Brian W. Kernighan and Dennis M. Ritchie (inventors of 'C'): "In C, there is a strong relationship between pointers and arrays, strong enough that pointers and arrays should be discussed simultaneously. Any operation that can be achieved by array subscripting can also be done with pointers." I'd recommend reading Ch. 5.3, "Pointers and Arrays" for details about the inner workings. – junix Dec 4 '12 at 7:05

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