ASSEMBLY: Could someone explain what this line does?

I'm running through some assembly code and I can't figure out what a line of code does. The code is:

`````` leaq   0(,%rax,4), %rdx
``````

I know `lea` is basically a funky `mov` instruction, but it only moves the address. So we are moving the address of something to `%rdx` (making `%rdx` "point" to something on the stack). I know what `%rax` points to on the stack (say, `-28(%rbp)`), but I'm confused by how to multiply that with 4 to get my answer. Would `%rdx` point to `4*(-28) = -112(%rbp)`?

Thanks!

EDIT: I will give you a little summary of the code that precedes this instruction:

``````pushq   %rbp
movq    %rsp, %rbp
movl    %esi, -28(%rbp)
movl    -28(%rbp), %eax
cltq
leaq    0(,%rax,4), %rdx
``````
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sometime `lea` is also used for calculations. hard to say in your case because you dont give enough code to see. –  Fermat2357 Nov 13 '12 at 2:39
Also the 0 on the outside seems unnecessary since it is just going to add nothing to the address. Unless you need it to indirectly access the memory. –  emschorsch Nov 13 '12 at 2:42
@Fermat2357 I added a summary of the code that precedes the instruction. Hope that's enough @emschorsch I agree; I think the `0` is pointless too; it must have been generated by the compiler –  pauliwago Nov 13 '12 at 2:45
As you can see, whatever is in `%esi` will copied on the stack and then copied to `%eax`. Next `%eax` is extended to 64bit `rax` by the machine command `cltq`. At the end the `leaq` command will multiply `%rax` by 4 and store it into `%rdx`. To be sure for what the hell it is done we need to see what will happen to `%rdx` later. –  Fermat2357 Nov 13 '12 at 3:37

Your equivalent C code is something like:

``````extern int32 arr[];
int my_func(int32 n, ...) {
int32 a=n;
...
arr[a];
...
}
``````

n is passed as a single 32-bit register esi, which is stored to local stack frame. The parameter is then used in evaluation the 64-bit expression 4*a. The '0' can be explained if it's supposed to be relocated by the linker to the address 'arr'.

Then my guess is that the assembly code is not generated by `gcc -S foo.c`, but by `gcc -c foo.c; objdump -d foo.o`

``````   // Similar code from a 32-bit machine
0:   55                      push   %ebp
1:   89 e5                   mov    %esp,%ebp
3:   8b 45 08                mov    0x8(%ebp),%eax
6:   8b 04 85 00 00 00 00    mov    0x0(,%eax,4),%eax
d:   5d                      pop    %ebp
e:   c3                      ret
f:   90                      nop
``````
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You may as well imagine the expression evaluated is &arr[4*n]. (In the disassembly I used arr[4*a], so it uses mov instead of lea.) –  Aki Suihkonen Nov 13 '12 at 5:53

I believe the code is moving whatever is at the address in `%rbp-28` into `%eax`. This will probably be an integer. Then it is just moving that `value*4` into `%rdx` (The 64 bit version of `%eax` similar to the way `%ah` is the high order bytes of `%eax`). This question seems to discuss a similar issue.

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