alignment and assembly in IA32

Can someone explain to me why in the second question proco2, that x-> b.i -> f[3]?

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Actually on the stack you only have a pointer to the `struct s2` (in `8(%ebp)`). Therefore after

``````movl 8(%ebp), %eax
``````

in `%eax` you have an address of `struct s2`.

The 8th-11th bytes of `struct s2` constitute `f[0]` and the 12th-15th bytes constitute `f[1]` and therefore you have

``````return x->f[1]
``````

In the second case after

``````movl 8(%ebp), %eax
``````

in `%eax` you have an address of `struct s1`.

The 4th-7th bytes of `struct s1` constitute the `b` field of type `union u1`. Therefore after

``````movl 4(%eax), %eax
``````

in `%eax` you have `union u1`. Since it's a `union` the `%eax` contains all field values at the same time (`h`, `i` and `j`). So

``````movl 20(%eax), %eax
``````

is actually getting the 20th-23th byte of whatever pointer is in `%eax` (it can't be the `j` field since it's not a pointer). It can't be `h` field since it points to `struct s1` and `sizeof (struct s1)` is 12 which is <20. Therefore it must be the `i` field. The 20th-23th byte of `struct s2` is `f[3]` and therefore you have:

``````return x->b.i->f[3]
``````
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can you explain the second one? how did it get to b.i? –  Jenny C Nov 14 '12 at 2:43
and for the first question, is 8th-11th bytes of struct s2 -> f[0]? –  Jenny C Nov 14 '12 at 3:18
@Jenny I edited the answer so that it contains the second case and the answer to your question. –  ShyJ Nov 14 '12 at 22:03

mov 8(%ebp), %eax ;; eax = &x
mov 4(%eax), %eax ;; eax = x->b (or x->e)

More likely x->e would have had movsbl 4(%eax), %eax //; sign extension
or mov 4(%eax), %al with sign extension

Because char can't (shouldn't) be used as a pointer, the 4(%eax) was a ptr to struct. Which struct? 20%(eax) exists only for struct s2, unless originally there was an array os structs s1.

Offset 20 of s2 is f[3].

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