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I've written the following code trying to solve a challenge which requests an array-like structure without using them:

#include <iostream>

int main(){
    int x = 132,y = 33,z = 87;

    int *i = &x;

    std::cout << x << " " << y << " " << z << "\n";
    std::cout << &x << " " << &y << " " << &z << "\n";
    std::cout << i << " " << i-1 << " " << i-2 << "\n";
    std::cout << *i << " " << *(i-1) << " " << *(i-2) << "\n";   

I found that the difference between 2 variables' addresses (&y-&x) to be -1 and I've adapted the code subsequently I don't understand why the last defined variable is allocated "before" (meaning, a previous address).

I would have think &y-&x = 1, honestly.

Can you give me a few pointers? (no pun intended :P) Oh, I know that code is bad practice - but does it have drawbacks or exceptions?

Thank you in advance

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You can't make any valid assumptions about how, where or in what order these local variables will be allocated. –  Paul R Jan 25 '11 at 11:11
I could not assume even that &y-&x is equal to &z-&y? –  framp Jan 25 '11 at 11:30
as I said above, you can't make any valid assumptions about this... –  Paul R Jan 25 '11 at 12:21

3 Answers 3

up vote 6 down vote accepted

This practice is as bad as it can get.

The stack layout is not specified; even if the variable actually has a on-stack representation (which it may not have, if you don't take the variable address and the optimizer moves it to registers), the order between variables and the padding (i.e. the difference between pointers) is not specified.

You can get a pointer to the local variable, but you can't do pointer arithmetics on it - you get undefined behavior (unless, of course, we're talking about local array variable).

Finally, there is at least one platform where abs(&y - &x) is never 1 (because stack vars are 16b-aligned).

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+1. This isn't just bad practice, it's Undefined Behaviour™ –  Puppy Jan 25 '11 at 11:15
Thanks for your reply. As I said I couldn't use arrays. I assume there is not a safe way to do that, isn't? Oh maybe a better way could be i+(&y-&x) and i+2*(&y-&x). In this way the code will not be dependent on my platform –  framp Jan 25 '11 at 11:21
i + (&y - &x) will likely work on all practical compilers, but is still technically undefined. i + 2 * (&y - &x) will fail on different compilers, depending on optimization options and other factors. –  zeuxcg Jan 25 '11 at 11:31

Because the stack grows downwards on your machine. There are some helpful diagrams for the Intel x86 about half-way down this page.

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Thanks for the diagrams, they are perfect for intel cpus –  framp Jan 25 '11 at 11:23
@framp: @TonyK. That is a simplistic representation of how it works conceptually only. The compiler makes no such grantees and I suspect there are systems that do not do this for security reasons. There is actually no reason why stack frames may not be dynamically allocated within the heap like any other dynamic memory. –  Loki Astari Jan 25 '11 at 16:53
@Martin York: I pitched my answer at the OP's perceived level of experience, but I don't think I was being simplistic. Simplified, perhaps. But what are these 'security reasons'? I am dubious. –  TonyK Jan 25 '11 at 21:00
@TonyK: Its part of ASLR. Its not a security panacea. But it makes things harder for attackers. –  Loki Astari Jan 25 '11 at 21:24
@Martin York: That link is certainly interesting! But I didn't see anything about allocating stack frames from the heap. I'm still dubious. –  TonyK Jan 25 '11 at 22:25

The compiler can place variables wherever it likes. On many current operating systems, the stack grows downwards, so if the compiler naively allocates variables in stack order, a variable that is declared later in located at a lower memory position. But again, it is completely arbitrary.

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Not only that, the compiler might not even allocate a variable at all if it can optimize it away. –  vsz Sep 25 '12 at 6:20

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