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Well, I have searched all over and couldn't find anything, so please excuse if this question was already asked.

In C (gcc, Linux x86_64), trying to test a pointer using this code works:

if(ptr) { ... }

But I get a segfault when I do this:

while(set1) {
    set3 = realloc(set3, sizeof(int) * n);
    set3[n-1] = *set1;

or even this:

  for(; set1; set1++) {
    set3 = realloc(set3, sizeof(int) * n);
    set3[n-1] = *set1;

Can someone explain me this? Where am I going wrong? :S

NB: The code inside `if' said above was just for testing, I don't need it actually

share|improve this question
can you share rest of the loop? – faraday Jul 22 '11 at 14:04
Show us what's in the body of the statement. – Jonathan Grynspan Jul 22 '11 at 14:04
The problem is in your ... part, obviously. Can you show it? – Armen Tsirunyan Jul 22 '11 at 14:04
Aren't you by any chance goint in an infinite loop with while and for? – Armen Tsirunyan Jul 22 '11 at 14:06
Any place you have *ptr? – Stan Jul 22 '11 at 14:06
up vote 4 down vote accepted

I think you are misunderstanding what "testing a pointer" means. The condition if(p) is identical to if(p != 0), so all you are testing is whether the pointer is null or not. There is nothing that tells you whether it's OK to dereference any given pointer.

In particular, for(; ptr; ptr++) { ... } will just continue incrementing the pointer forever; if you dereference ptr in the body, you will almost certainly cause an access violation eventually.

You are responsible yourself for knowing by how much you can increment the pointer!

(Silly aside: If you are not dereferencing ptr at all, this might loop around until ptr overflows and is 0 again, but this may never happen depending on the initial value of ptr and on sizeof(*ptr).)

share|improve this answer
Okay so it means I need to keep a counter variable and cannot do something like, "when the pointer becomes invalid, break out of the loop"? – nileshgr Jul 22 '11 at 14:19
Right. That counter is usually called "array size" or something mnemonic like that. There is no built-in notion of "checking whether a pointer points to something valid". It simply cannot be done (in any reasonable way). E.g.: for (T * q = p; q < p + N; ++q) { ... *q ... }, or while(N--) { ... *p++ ... } etc. – Kerrek SB Jul 22 '11 at 14:20
if(p) is equivalent to if(p != 0), not the other way around. – Jake Petroules Jul 22 '11 at 14:21
@Jake: D'oh, of course -- fixed! Thanks :-) – Kerrek SB Jul 22 '11 at 14:22

i'd guess ptr is not null (so the if will evaluate to true) but your pointer is not valid (i.e: it was freed, or even if ptr=1 the "if" will evaluate to true but you wont be able to access the memory position 1)

maybe you can try fprintf(stdout, "%p", ptr) in different parts of your code so you can trace where the value was messed up, we really need more details here :)

share|improve this answer
Pointer is perfectly valid, because I can deference it and print the value present! Moreover, I tried ptr != NULL in for & while, doesn't work either. Segfaults. – nileshgr Jul 22 '11 at 14:12
A pointer can contain any bit combination that fit in its size. The only valid pointers are however those that contain the address of a live object or allocated memory. But any other random combination can, by accident, point at memory that is accessible by your app, but is not a valid object or piece of memory. Then you will be able to print a value, but what it is is undefined. IOW, the fact you can derefence and print a value does not mean your pointer is valid. There is no sure way to tell if a pointer is valid. You can only say that nil or NULL are certainly invalid. – Rudy Velthuis Jul 22 '11 at 14:58
One example: You malloc() a piece of memory and keep a pointer to it. Say it contains a few integers. You access these integers and print their values. So far so good, since the pointer is valid. But if you freemem() the memory, you can still dereference the pointer you have, and if the memory was not re-used yet, you may even be able to retrieve a value you put there. But the pointer is invalid, since it points to freed memory. There is no way to distinguish valid from invalid pointers just from their value. Only proper programming logic can ensure that you don't have invalid pointers. – Rudy Velthuis Jul 22 '11 at 15:04

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