# Representing numbers greater than 65535 in MIPS

I am working in MIPS, and using numbers in excess of 65535, and I'm getting an out of range error. How can I work around that in this code?

``````## p2.asm
##
## Andrew Levenson, 2010
## Problem 2 from Project Euler
## In MIPS Assembly, for SPIM
##
## Calculate the sum, s of all
## even valued terms in the
## Fibonacci sequence which
## do not exceed 4,000,000
.text
.globl  main

main:
## Registers
ori     \$t0, \$0, 0x0        # \$t0 will contain scratch
ori     \$t1, \$0, 0x1        # \$t1 will contain initial fib(N-1)
ori     \$t2, \$0, 0x2        # \$t2 will contain initial fib(N)
ori     \$t3, \$0, 0x0        # \$t3 will be our loop incrementor
ori     \$t4, \$0, 0x0        # \$t4 will be our sum
ori     \$t5, \$0, 0x2        # \$t5 contains two to test if even
ori     \$t8, \$0, 4000000    # \$t8 contains N limit

even_test:
## Test to see if a given number is even
div     \$t1, \$t5            # \$t1 / 2
mflo    \$t6                 # \$t6 = floor(\$t1 / 2)
mfhi    \$t7                 # \$t7 = \$t1 mod 2

bne     \$t7, \$0, inc        # if \$t7 != 0 then bypass sum
sll     \$0, \$0, \$0          # no op

sum:
## Add a given value to the sum
addu    \$t4, \$t4, \$t2       # sum = sum + fib(N)

inc:
## Increment fib's via xor swap magic
xor     \$t1, \$t1, \$t2       # xor swap magic
xor     \$t2, \$t1, \$t2       # xor swap magic
xor     \$t1, \$t1, \$t2       # xor swap magic
## Now \$t1 = \$t2 and \$t2 = \$t1

## Increment \$t2 to next fib
addu    \$t2, \$t1, \$t2

## Is \$t2 < 4,000,000?
## If so, go to loop
sltu    \$8, \$t2, \$t8        # If \$t2 < 4,000,000
# then \$8 = 1
bne     \$8, \$0, even_test   # if \$8 == \$0 then jump to even_test
sll     \$0, \$0, \$0          # no op

print:
li      \$v0, 0x1            # system call #1 - print int
move    \$a0, \$t4
syscall                     # execute

li      \$v0, 0xA            # system call #10 - exit
syscall

## End of Program
``````

How can I fix this?

-

(I had no idea of MIPS assembly before yesterday, but I'll give a shot)

LUI with 0x3D, followed by ORI with 0x900 (4,000,000 being 0x3D0900)?

-
+1. You should be able to simply write `li \$t8, 4000000`, but that's exactly what it will expand to. –  Matthew Slattery Jul 22 '10 at 19:00
I'd have to throw in a left shift before the or, but yeah, this works, thanks. –  Andy Jul 22 '10 at 19:16
Shouldn't need any left shift with LUI. –  zwol Jul 22 '10 at 19:19
My bad. Also, oh man oh man oh man I got the last kinks out and it works! I never thought even 30 minutes ago that I'd actually get a working solution for this in MIPS. :D –  Andy Jul 22 '10 at 19:24

I'm guessing this is the problem line?

``````   ori     \$t8, \$0, 4000000    # \$t8 contains N limit
``````

MIPS instructions have only 16-bit constant fields, so you need to construct constants greater than 65535 with a more complex sequence, or else load them from memory. Something like this should work:

``````  ori      \$t8, \$0, 0x3d09     # 4 000 000 >> 8
sll      \$t8, \$t8, 8
``````

I think "sll dest, src, count" is how you shift left in MIPS assembly, but I could be wrong. You can also use the "li" macro-instruction, which takes any 32-bit constant and finagles that into a register somehow, using more than one instruction if necessary.

-
Thanks, this fixed that problem (I think). Now I just need to figure out why it's spitting out the wrong answer. –  Andy Jul 22 '10 at 19:16

My first thought would be to use two registers, one for the higher-order bits and one-for the lower-order bits. You'd have to keep track of them together, but that's just what comes to mind for me.

-