Recursively adding all the elements in an array in NASM Assembly

Still on my way to learn recursion in NASM Assembly, 32-bit Ubuntu, I am now trying to add all the elements in an array recursively. The array's elements are all 4-bytes each.

I came up with a solution that seems to work.

Basically, to add the elements in an array, I somehow need to count them, right? So I have `ESI` as my counter. However, this register needs to be set to `0` at the beginning of the function - but I don't think there is any way I can tell whether the current function call is the first one, or the second or third... So to fix this, I have two functions: the initial call, and the recursive call. The first one sets `ESI` to `0` and then calls the recursive call. The elements are all added to `EAX`, which is also set to `0` in the initial call..

But I'm concerned with it because it is somewhat different from two recursive functions I've done before:

Because, first of all, I'm using two functions, one for the start, and another for the actual recursive part. Also, I am using a counter, which feels awfully a lot like an iterative solution.

So my questions are: is there a solution that resembles better the two recursive functions I posted above? Can my current solution be considered recursive?

``````; --------------------------------------------------------------------------
; Recursive function that adds all the elements in an array into EAX.
; The array's elements are 4-bytes each.
; --------------------------------------------------------------------------

SECTION .data
array:  dd  1,5,3,7,4,8,5,2
size:   equ \$-array

SECTION .text
global  main
main:

; ------------------------------------------------------------------
; * Main
; ------------------------------------------------------------------
breakpoint:     ; Used for GDB to inspect the result later

; ------------------------------------------------------------------
; * Exit
; ------------------------------------------------------------------
mov     EAX,0
int     0x80

; ------------------------------------------------------------------
; * Initial function call, before doing the recursive calls
;   Sets ESI to 0, which will be used to count the array's elements
;   Also sets EAX to 0, for storing the result
; ------------------------------------------------------------------
push    ESI
mov     ESI,0
mov     EAX,0
call    recursiveCall
pop     ESI
ret

; ------------------------------------------------------------------
; * Recursive part of the function
;   Adds to EAX to current element, and increases the ESI counter by
;   4 (because the array's elements are 4-bytes each).
;   If the counter happens to be >= the array's size, stop.
; ------------------------------------------------------------------
recursiveCall:
cmp     ESI,size
jge     endRecursiveCall
call    recursiveCall
endRecursiveCall:
ret
``````
-

First, your definition of `size` is wrong, your way will give you the total bytes of the array; this is not what you want. Your array is made of DWORDS, you want to know the total elements, so we divide by 4 (The size of a DWORD):

``````size:   equ (\$-array) / 4
``````

Two ways of doing this, start from the end of the array or the beginning:

From end:

``````array:  dd  1,5,3,7,4,8,5,2
size:   equ (\$-array) / 4

SECTION .text
global  main
main:

xor     eax, eax                        ; clear out eax
mov     esi, size - 1                   ; set our index to array end
call    recursiveCall

push    eax
push    fmtint
call    printf

.exit:
call    exit

recursiveCall:
add     EAX, dword[array + 4 * ESI]
dec     ESI
js      .endRecursiveCall
call    recursiveCall

.endRecursiveCall:
ret
``````

From start:

``````SECTION .text
global  main
main:

xor     eax, eax                        ; clear out eax
xor     esi, esi                        ; set out index to start of array
call    recursiveCall

push    eax
push    fmtint
call    printf

.exit:
call    exit

recursiveCall:
add     EAX, dword[array + 4 * ESI]
inc     esi
cmp     esi, size - 1
jg      .endRecursiveCall
call    recursiveCall

.endRecursiveCall:
ret
``````
-
So basically there will always be an initial call, and there will always be a counter? What is `fmtint` by the way? –  Voldemort Oct 17 '13 at 2:16
Initial call? Well, of course! How else would you get "into" the function without resorting to voodoo? `fmtint` is the format specifier I used for `printf` to print the returned value `fmtint db "%d", 0` A counter? Yes, you need to know when to stop the recursive calls - a counter, boolean, whatever. –  Gunner Oct 17 '13 at 2:22
Nice, thank you. Although I think that the `size` constant was fine, because I was increasing it by `4` each time anyway. Nice catch though, it makes things simpler. –  Voldemort Oct 17 '13 at 2:28