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I have a problem with asm code that works when mixed with C, but does not when used in asm code with proper parameters.

;; array - RDI, x- RSI, y- RDX
   mov r13, rsi
   sal r13, $3
   mov r14, rdx
   sal r14, $2
   mov r15, [rdi+r13]
   mov rax, [r15+r14]


Technically I want to keep the rdi, rsi and rdx registers untouched and thus I use other ones.

I am using an x64 machine and thus my pointers have 8 bytes. Technically speaking this code is supposed to do:

int getValue(int** array, int x, int y) {
    return array[x][y];

it somehow works inside my C code, but does not when used in asm in this way:

mov rdi, [rdi]    ;; get first pointer - first row
mov r9,  $4       ;; we want second element from the row
mov rax, [rdi+r9] ;; get the element (4 bytes vs 8 bytes???)
mov rdi, FMT      ;; prepare printf format "%d", 10, 0
mov rsi, rax      ;; we want to print the element we just fetched
mov eax, $0       ;; say we have no non-integer argument
call printf       ;; always gives 0, no matter what's in the matrix

Can someone see into this and help me? Thanks in advance.

share|improve this question
Got a debugger? – Alexey Frunze Mar 24 '13 at 16:18
up vote 1 down vote accepted

The sal r14, $2 implies the elements are dwords, so the last line before the ret shouldn't load a qword. Besides, x86 has nice scaling addressing modes, so you can do this:

mov rax, [rdi + rsi * 8]  ; load pointer to column
mov eax, [rax + rdx * 4]  ; note this loads a dword

That implies that you have an array of pointers to columns, which is unusual. You can do that, but was it intended?

share|improve this answer
OK, but how can I print it now? Asking, because I'm just starting with ASM and x64 and I know no method to convert a 32-bit value to 64-bit value (printf takes standard 8-byte registers as first parameters, so "mov rsi, eax" will not work). – user767849 Mar 24 '13 at 16:34
You can use movsxd rsi, eax to sign-extend it to 64 bits. If it's unsigned or known to be positive, you can just mov esi, eax it. – harold Mar 24 '13 at 16:36
Thanks. This worked really great. I have tested it before, but I was stupid to change eax to 0 before assigning calculated value to rsi... Thanks again! – user767849 Mar 24 '13 at 16:44

This is a standard matrix of integers.

int** array;
sizeof(int*) == 8
sizeof(int) == 4

How I see it is that when I have that array at first, I have a pointer to a space of memory without "blanks" that holds all pointers one by one (index-by-index), so I say "let's go to the element rsi-th of the array" and that's why I shift by rsi-th * 8 bytes. So now I get the same situation, but the pointer should point to a space of integers, so 4-byte items. That's why I shift by 4 bytes there.

Is my thinking wrong?

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