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) {
if(n<2)
return 1;
return fib(n-1)+fib(n-2);
}
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) {
if(n<2)
return 1;
return fib(n-1)+fib(n-2);
}
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)
fact:
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
L2:
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
L1:
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
-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
but
$gcc -S -mrnames fib.c -o fib.s
will be clearer.
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.
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.