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void Test2()
    int c=8;
    int b=7;
    int d=9;
    int *a; 

    a = &b;
    a+=sizeof(int); //I supposed that *a should points on variable d after this 

    cout << "b\t" << &b << "\t" << b << endl;
    cout << "a\t" << a  << "\t" << *a << endl;
    cout << "c\t" << &c  << "\t" << c << endl;
    cout << "d\t" << &d  << "\t" << d << endl;

I supposed that *a should points on variable d because b and d (as I thought) lie nearby in the stack of local variables. But *a points on another address so *a!=d My question is why so? Is it the feature of Visual Studio 2010 or something else?

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It's undefined behaviour, not a feature. There is nothing in standard C++ which mandates anything like this, in fact compilers are free to do what they see best and you are forbidden from relying on such things. In practice compilers might decide at any point (even a seemingly unrelated change further away) to place things differently which would break your assumption. –  Flexo Sep 13 '12 at 7:32
And the comparison you used (*a != d) is flawed as they could be equal by chance. a != &d would be a better choice. –  Flexo Sep 13 '12 at 7:34
I won't make a full answer, as people have already covered the important parts, but it is also worth noting that in most implementations the stack actually grows the other direction, so even if you had done it correctly and got away with the undefined behavior, you would end up pointing at c, not at d. I only tested this with g++ on Linux, but I believe it is the case on most systems. –  BoBTFish Sep 13 '12 at 7:37
@Flexo Hmm. *a = b = 7 != d, because d= 9. Anyway I put all values and addresses to be sure. Thank you for comment –  Myosotis Sep 13 '12 at 7:37

4 Answers 4

up vote 9 down vote accepted

No, it's a feature of C++ called undefined behavior. You can't do pointer arithmetics outside an array (or one position over the bound of the array) you own.

You could get this to work by a += 1 because a is already a int*, so += 1 will make it point to the next integer. a+=sizeof(int) will move it sizeof(int) integers to the right.

 |      |      |      |      |      |      
    ^      ^                    ^
    |      |                    |
    a     a+1               a+sizeof(int) (assuming sizeof(int) == 4)

Again, technically it's undefined.

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I tried a+1 too. I can't catch address of variale d :) –  Myosotis Sep 13 '12 at 7:32
@Myosotis it's probably the address of c then. –  Luchian Grigore Sep 13 '12 at 7:33
Luchian Grigore, you are right. I get it on g++ –  Myosotis Sep 13 '12 at 7:44

Well for starters I don't think pointer arithmetic works how you think it works. You do not need to do sizeof(int), because the pointer is already a pointer to int, so the compiler knows that a++ will need to advance 4 bytes.

Secondly no, you can't point to local variables as you have no idea where the compiler has placed them in memory, their lifetime, or even if they are in memory at all. The compiler will optimise many local variables into CPU registers.

EDIT: Yes, as per valid comments I should clarify that you can take pointers to local variables, and the compiler will do the right thing, but you cannot use pointer arithmetic with them since they may be optimised away completely.

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The second part is a bit misleading. It's perfectly acceptable to take the address of local variables, but this kind of pointer arithmetic is meaningless (although you can do pointer arithmetic within local arrays of course). –  BoBTFish Sep 13 '12 at 7:49
Not only misleading, it's completely wrong. Of course you can take the addresses of locals and point to them. –  Luchian Grigore Sep 13 '12 at 7:53
Optimizations can't affect observed behavior, so that's not a valid reason for not being able to do pointer arithmetic on them. The reason is that the standard disallows it. –  Luchian Grigore Sep 13 '12 at 8:13

You can't assume that all the variables are aligned the way you want it, and you can't use pointer arithmetics in this way. The only way to use it safely is to use it inside the bounds of an array of yours. Also, a+=sizeof(int) doesn't move it to point to the next integer, but moves it by sizeof(int) integers.

You are relying on UB here, thus you can not expect any particular result. Actually you may even get a segfault.

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No its not Visual Studio 2010 feature. Arithmetic operations for pointers shows undefined behaviour.

Normally, only use increment/decrement when pointing to elements of an array

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What do you mean "You can't trust on arithmetic operations for pointers"? –  Luchian Grigore Sep 13 '12 at 7:33

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