I want to implement a recursive program in assembly for MIPS. More specifically, I want to implement the well-known Fibonacci function.

Here's the implementation in C:

int fib(int n) {
        return 1;
    return fib(n-1)+fib(n-2);
  • 12
    smells like homework – Spence Jul 11 '10 at 11:26
  • Is that homework? – starblue Jul 11 '10 at 11:27
  • 2
    No, it isn't homework. Just an exercise. – rigon Jul 11 '10 at 11:57

Here is the code to do a recursive factorial function in MIPS assembly. Changing it to do Fibonacci is left as an exercise to the reader. (Note: delay slots aren't optimized in this code, as it's designed for readability.)

# int fact(int n)
    subu    sp, sp, 32  # Allocate a 32-byte stack frame
    sw  ra, 20(sp)  # Save Return Address
    sw  fp, 16(sp)  # Save old frame pointer
    addiu   fp, sp, 28  # Setup new frame pointer
    sw  a0,  0(fp)  # Save argument (n) to stack

    lw  v0, 0(fp)   # Load n into v0
    bgtz    v0, L2      # if n > 0 jump to rest of the function
    li  v0, 1       # n==1, return 1
    j   L1      # jump to frame clean-up code

    lw  v1, 0(fp)   # Load n into v1
    subu    v0, v1, 1   # Compute n-1
    move    a0, v0      # Move n-1 into first argument
    jal fact        # Recursive call

    lw  v1, 0(fp)   # Load n into v1
    mul v0, v0, v1  # Compute fact(n-1) * n

    #Result is in v0, so clean up the stack and return
    lw  ra, 20(sp)  # Restore return address
    lw  fp, 16(sp)  # Restore frame pointer
    addiu   sp, sp, 32  # Pop stack
    jr  ra      # return
    .end    fact
  • Good job. Thanks – rigon Aug 11 '10 at 22:54

-Load n-1 into $a0

-Use a jal instruction to call fib recursively.

-Fetch result from the $v0 register.

-Load n-2 into $a0

-Use a jal instruction to call fib recursively.

-Fetch result from the $v0 register.

Then, there's something with the addu instruction...

Oh yeah, you must check the if using a branch, but that has nothing to do with recursion.

if you need help, the compiler is your friend.

$gcc -c -g fib.c

$objdump -S fib.o


$gcc -S -mrnames fib.c -o fib.s

will be clearer.

  • -mrnames was taken out in the 4.0 branch. – Nietzche-jou Jul 13 '10 at 4:56
  • -fverbose-asm can be useful too. – edmz Apr 2 '14 at 19:16

Hint - think about a stack.

By the way, recursion is a really bad solution to the problem in terms of complexity (both time and space). A loop and two variables would work much better.

  • You're right, I need use a stack. I know it's a bad solution. I just want practice recursion in MIPS. – rigon Jul 11 '10 at 11:53

Post your attempt and we'll try and help.

Recursion and micro's don't always play well together though...


Compile your C function to an object file and look at

objdump -d fib.o

Could be your starting point.

  • Perhaps better may be to compile to assembler code. – paxdiablo Jul 11 '10 at 11:51
  • 5
    Have you SEEN what a C compiler can do to an innocent piece of code? – Spence Jul 11 '10 at 12:12
  • @paxdiablo, ah, of course... – integer Jul 11 '10 at 18:18
  • You could use an objdump -S on a gcc -c fib.c output. That would be much clearer – Tom Jul 13 '10 at 4:20

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