# Assembly - NASM Factorial issues

Hi I am writing a factorial function in Assembly using NASM. I have to use russian multiplication in place of the mul for my assignment. I am using 32 bit linux

Here is my Factorial code

``````section .text
global factorial
extern rpmult

factorial:
push    ebp
mov     ebp, esp
sub     esp, 4 ;creates memory for local variable at ebp-4
mov     esi, [ebp+8] ; put n in esi
cmp     esi, 1 ; n <= 1

.try:
mov     [ebp-4],esi ;adds n temporarily into ebp-4
dec     esi ; n - 1
push    esi ; push arugment
call    factorial ;call factorial again stores result in esi
add     esp, 4 ;gets rid of the argument

mov     edi, esi ;copies n - 1 into edi
mov     esi,[ebp+4] ;gets the original value back (n)
call    rpmult ;multiply
jmp     .done ;once it reaches here, finished the function

.done:
mov     esp, ebp ;restores esp
pop     ebp
ret     ;return the value
``````

Here is my rpmult code:

``````section .text

global rpmult

rpmult:
push    ebp
mov     ebp, esp
sub     esp, 4     ;allocate m

mov     dword [ebp-4], 0   ; m = 0;
.while:
test    edi, edi   ; x == 0?
je      .done
test    esi, esi   ; y == 0?
je      .done

test    edi, 0x01  ; x is odd?
jz      .shifts
add     [ebp-4], esi   ; m += y;

.shifts:
shr     edi, 1     ; x >>= 1;
shl     esi, 1     ; y <<= 1;
jmp     .while

.done:
mov     eax, [ebp-4]
;mov    esp, ebp
;pop    ebp
leave
ret
``````

When I use the function through a C program, say the factorial of 4! I get

``````4! = 13803416593125867520
``````

I believe my code is right, but I have no idea what to do. I need to get the factorial function working with the rpmult function for my final. Any help is appreciated! Thanks!

-
Step through the program under GDB ;) –  paulsm4 Dec 10 '11 at 1:33
I've tried changing the offsets from 4 to 8 in ebp. I still can't get it to work. –  Rhithik Dec 10 '11 at 2:10
In rpmult, you're returning the value in eax, while in factorial you're expecting it in esi. Return it in eax and copy it to edi after the call to factorial. –  lloydm Dec 10 '11 at 6:02

(Note: I've rewritten this answer, after looking at it again while I'm more awake, and having read @lloydm's comment.)

There are three problem areas:

### 1) The base case of the recursion

When debugging recursive functions, it's always sensible to check the base case first.

So what happens when calculating `1!`?

``````factorial:
push ebp
mov ebp, esp
sub esp, 4 ;creates memory for local variable at ebp-4
mov esi, [ebp+8] ; put n in esi
cmp esi, 1 ; n <= 1
...
.done:
mov esp, ebp ;restores esp
pop ebp
ret ;return the value
``````

There are two issues here already:

1. You're expecting this code work correctly when called from C, which means that you need to follow the usual calling convention (which for Linux with gcc means "cdecl" - see http://en.wikipedia.org/wiki/X86_calling_conventions). So you need to preserve `esi`, `edi`, `ebp` and `ebx`. But this code is overwriting whatever was in `esi`. This will lead to unpredictable behaviour when the function is called from C, because the code generated by the C compiler will assume that whatever was in `esi` before `factorial` was called is still there when it returns. You can only use these registers if you save their values somewhere first (and restore them before returning).

2. The return value is passed out in `eax`, but you're not putting anything into `eax` here. You want the answer for `1!` to be `1`, not "whatever random junk happens to be in `eax` at the moment"!

### 2) The recursive case of the recursion

``````...
.try:
mov [ebp-4],esi ;adds n temporarily into ebp-4
dec esi ; n - 1
push esi ; push arugment
call factorial ;call factorial again stores result in esi
add esp, 4 ;gets rid of the argument
mov edi, esi ;copies n - 1 into edi
mov esi,[ebp+4] ;gets the original value back (n)
call rpmult ;multiply
jmp .done ;once it reaches here, finished the function
...
``````
1. `edi`, like `esi`, is a register which needs to be preserved, as described above.

2. The line `mov edi, esi ;copies n - 1 into edi` is wrong. You don't want to put `n - 1` into `edi` - you're trying to calculate `(n-1)!*n` here, so you want to put `(n-1)!` into `edi`, i.e. the answer calculated by the recursive call. Which, as @lloydm points out, is returned in `eax`. (I was misled by the comment in my original answer, and thought that you really were trying to put `n - 1` into `edi`. That wouldn't work either because `esi` no longer contains `n - 1` after the `call factorial`, because you don't follow the calling conventions.)

3. `mov esi,[ebp+4] ;gets the original value back (n)` is wrong (as I noted originally); `[ebp+4]` contains the return address; this should be `[ebp-4]`.

### 3) The strangely large value

`4! = 13803416593125867520` is a stranger answer than it first appears: it's far too large for a 32-bit value. (In hex: `0xbf8f964200000000`, so it's a 64-bit value with a big number in the top 32 bits and zero in the bottom 32 bits.)

You might expect to get a completely random value as an answer, given the other bugs, but `factorial` returns a 32-bit random value. So why are you printing a 64-bit value here? (If you're not doing it deliberately, I suppose it could possibly be related to the C code doing something strange because `esi` and `edi` have not been preserved by your code.)

### Debugging tip

Don't start by trying to work out why `factorial(5)` doesn't work. Start as simply as possible, with `factorial(1)`. Then work up to `factorial(2)`, etc.

-
Yes I meant [edp-4]. OK, I'll try using the debugger, and see where that gets me. I never used it before and I'll most likely be back. Thanks for the replies so far. –  Rhithik Dec 10 '11 at 2:31
From what I can tell from debugging the program, for the first time ever, that esi, and edi never even reach a number like this: 13803416593125867520 But I'm not sure why the program returns a number that high. I tried debugging the program with the argument 5, and the highest that esi or edi reach is 1280. But it shouldn't be going that higher should it? The factorial of 5 is 120. I don't even know if I am debugging correctly either :) –  Rhithik Dec 10 '11 at 3:07