# Recursive Fibonacci in Assembly

I'm attempting to implement a recursive Fibonacci program in Assembly. However, my program crashes, with an unhandled exception, and I can't seem to pick out the problem. I don't doubt that it involves my improper use of the stack, but I can't seem to point out where...

``````.386
.model Flat
public Fibonacci
include iosmacros.inc ;includes macros for outputting to the screen

.code
Fibonacci proc

MOV EAX, [EBP+8]
CMP EAX, 1
JA Recurse
MOV ECX, 1
JMP exit

Recurse:
DEC EAX
MOV EDX, EAX
PUSH EAX
CALL Fibonacci
MOV EBX, ECX
DEC EDX
PUSH EDX
CALL Fibonacci
exit:
ret
Fibonacci endp

.data

end
``````

Also, I've pushed the number that I'm using to get the Fibonacci value to the stack in an external procedure. Any ideas where the problem might lie?

-

When you perform a `call`, the address of the next operation is pushed to the stack as a return value. When creating a function, it is often customary to create a "stack frame". This frame can be used to print the call stack, as well as an offset for local variables and arguments. The frame is created through two operations at the beginning of the function:

``````push ebp
mov ebp, esp
``````

At the end of the function, the call stack is removed using `leave`, which is equivalent to the reverse of those 2 operations. When using a stack frame, value of `esp` is stored into `ebp`, making it point to a location on the stack called the frame's base. Since, above this address, there are the old value of `ebp` and the return address, you would normally get the first argument using `[ebp+8]`. However, you did not set up a stack frame. This means that the old value of `ebp` was not pushed to the stack, and the current value of `ebp` cannot be used to get arguments because you don't know where it is. Therefore, you should get your argument using `[esp+4]`.

Also, it is customary that return values are placed in `eax` and `ebx` be preserved for the caller. Your code does not follow either of these conventions. Also, technically functions aren't required to preserved `ecx` or `edx`, so normally you should push them to the stack before calling another function if you want them preserved. With this code, `edx` and `ebx` would be overwritten if called with a value greater than 2, causing an invalid result.

Here is a full listing which includes all of the fixes I have mentioned. I did not create a stack frame as it is not necessary and your code didn't.

``````.386
.model Flat
public Fibonacci
include iosmacros.inc ;includes macros for outputting to the screen

.code
Fibonacci proc

MOV EAX, [ESP+4]
CMP EAX, 1
JA Recurse
MOV EAX, 1 ; return value in eax
JMP exit

Recurse:
PUSH EBX ; preserve value of ebx
DEC EAX
PUSH EAX
CALL Fibonacci
MOV EBX, EAX ; ebx is preserved by callee, so it is safe to use
DEC [ESP] ; decrement the value already on the stack
CALL Fibonacci
ADD EAX, EBX ; return value in eax
ADD ESP, 4 ; remove value from stack
POP EBX ; restore old value of ebx
exit:
ret
Fibonacci endp
``````
-
After utilizing this, the code works properly, but it still crashes somewhere. Off to debug - thanks! –  rar Apr 11 '11 at 4:53

Several problems:

• if you are going to pass parameters on the stack, you don't have the right (standard) function entry, so EBP points to the wrong place
• you aren't saving the argument value properly in edx

Here's what I think you wanted (best to add a comment to each instruction making it clear what you think it does):

``````Fibonacci proc
PUSH  EBP  ; save previous frame pointer
MOV   EBP, ESP  ;  set current frame pointer

MOV EAX, [EBP+8] ; get argument N
CMP EAX, 1  ; N<=1?
JA Recurse ; no, compute it recursivel
MOV ECX, 1 ; yes, Fib(1)--> 1
JMP exit

Recurse:
DEC EAX  ; = N-1
MOV EDX, EAX ; = N-1
PUSH EDX  ; save N-1
PUSH EAX  ; set argument = N-1
CALL Fibonacci ; compute Fib(N-1) to ECX
POP  EAX  ; pop N-1
DEC  EAX  ; = N-2
PUSH ECX  ; save Fib(N-1)
PUSH EAX  ; set argument = N-2
CALL Fibonacci ; compute Fib(N-2) to ECX
POP  EAX  ; = Fib(N-1)
ADD ECX, EAX  ; = Fib(N-1)+FIB(N-2)
exit:
MOV ESP,EBP  ;
POP  EBP   ; EDIT: missed this on first answer
ret
``````

But you don't have to pass the parameters on the stack. It is more efficient to use the registers:

``````Fibonacci proc ; computes Fib(EAX) --> EAX; do not call with EAX==0
CMP EAX, 1  ; N<=1?
JBE exit ; yes, we have the answer
DEC EAX  ; = N-1
PUSH EAX ; save N-1
CALL Fibonacci ; computing FIB(n-1)to EAX
XCHG  EAX,0[ESP] ; swap FIB(n-1) for saved N-1 (You'll love this instruction, look it up in the Intel manual)
DEC   EAX       ; = N-2
CALL  Fibonacci ; computing FIB(N-2) to EAX
POP   ECX       ; = FIB(N-1)
exit:
ret
``````
-
You forgot to pop `ebp` at the end. This code will always return to a location on the stack. –  ughoavgfhw Apr 11 '11 at 4:34
@ughoavgfhw: Yep, thanks, fixed. Just goes to prove that self-anointed experts screw up, too –  Ira Baxter Apr 11 '11 at 4:44
I've made the adjustments, but my code still doesn't work. However, this response still seems to be the answer I'm looking for. I believe my problem is elsewhere, now. As for using the registers, I tried this originally but it just didn't seem to be working out. Maybe I'll give it another shot. Thanks! –  rar Apr 11 '11 at 4:47
@rar: We already figured out that the expert can't code it right :-} Use a debugger and single step the instructions. It won't take you long to figure out the problem and the experience is priceless. –  Ira Baxter Apr 11 '11 at 4:49
@rar: you did pick the patch I made based on ughoavgfw's (wow) observation? –  Ira Baxter Apr 11 '11 at 5:03