# MIPS Calculator

I'm trying to finish up this MIPS calculator, super basic, my first mips program. It doesn't have to handle overflow or anything like that, just has to work on small, positive numbers.

I've not checked my algorithms for multiply and divide, because I am just trying to get add working.

I cannot for the life of me figure out why the ints will not read in and also I'm getting a memory out of bounds when I call lb \$a0, op to display the operator for output and don't understand why.

I'm new to this so anything is probably helpful. Thanks in advance.

``````        .data
# const string for welcome
welc:       .asciiz "Welcome to SPIM Calculator 1.0!\n"
p_int:      .asciiz "\nPlease give an integer: "
p_op:       .asciiz "\nPlease give an operator: "
i_err:      .asciiz "\nInput Incorrect, bad operator!\n"
again_str:  .asciiz "Another calculation? (y/n)"
rmndr:      .asciiz " r: "
new_line:   .asciiz "\n"

int1:   .word 1         # space to hold int 1
int2:   .word 1         # space to hold int 2
raw_in: .space 1        # space to hold raw input
op:     .space 1        # space to hold operator char
a_char: .space 1        # space to hold again char

out:    .word 1         # space to hold output
remain: .word 1         # space to hold remainder

#operator constants
c_plus: .ascii "+"      # const for +
c_min:  .asciiz "-"     # const for -
c_mult: .asciiz "*"     # const for *
c_divi: .asciiz "/"     # const for /
c_eq:   .asciiz "="     # const for =
c_no:   .asciiz "n"     # const for n

.text
.globl main
main:   li \$v0, 4               # syscall 4, print string
la \$a0, welc            # give argument: string
syscall                 # actually print string

calc:   la \$t6, remain          # load remainder variable
move \$t6, \$zero         # store 0 in remainder (reset)

li \$v0, 4               # syscall 4, print string
la \$a0, p_int           # give argument: string
syscall                 # actually print string

li \$v0, 5               # tell syscall we want to read int 1
syscall                 # actually read in int 1
la \$s1, int1            # load int1 into \$s1
move \$s1, \$v0           # copy the integer from \$v0 to int1

li \$v0, 4               # syscall 4, print string
la \$a0, p_int           # give argument: string
syscall                 # actually print string

li \$v0, 5               # tell syscall we want to read int 2
syscall                 # actually read in int 2
la \$s2, int2            # give \$s2 the address to hold int 2
move \$s2, \$v0           # copy the integer from \$v0 to \$s2

li \$v0, 4               # syscall 4, print string
la \$a0, p_op            # give argument: string
syscall                 # actually print string

li \$v0, 8               # tell syscall we want to read operator
la \$a0, op              # give \$a0 the address to hold the operator
syscall                 # actually read in operator

lb \$t0, op              # load the first byte of op
li \$t1, '+'             # load const for plus
li \$t2, '-'             # load const for minus
li \$t3, '*'             # load const for multiplying
li \$t4, '/'             # load const for dividing

la \$s0, out             # load out to \$s0

beq \$t0, \$t1, plus      # we're adding
beq \$t0, \$t2, minus     # we're subtracting
beq \$t0, \$t3, multi     # we're multiplying
beq \$t0, \$t4, divi      # we're dividing
# else
j error                 # incorrect input

plus:   add \$s0, \$s1, \$s2       # add our ints, store in \$t0
j print

minus:  sub \$s0, \$s1, \$s2       # subtract our ints, store in \$t0
j print

multi:  slt \$t1, \$t2, \$s2       # if our counter is less than int2, set \$t1 to 1
beq \$t1, \$zero, print   # if we've reached int2, we're done
add \$s0, \$s1, \$s1       # add int1 and int1, store in out
j multi                 # loop

divi:   la \$t0 remain           # load remainder into \$t0
move \$t0, \$s1           # set remainder to dividend
add \$s0, \$zero, \$zero   # set out to 0, just in case
loop:   slt \$t1, \$t0, \$s2       # if remainder is less than divisor, set 1
beq \$t1, \$zero, print   # if we're done branch to done
sub \$t0, \$t0, \$s2       # sub divisor from remainder, store in remainder
addi \$s0, \$s0, 1        # increment quotient by 1
j loop                  # loop

print:  li \$v0, 1               # tell syscall we want to print int
la \$a0, int1            # give syscall int1 to print
syscall                 # actually print int
li \$v0, 4               # tell syscall we want to print string
lb \$a0, op              # tell syscall we want to print operator
syscall                 # actually print string
li \$v0, 1               # tell syscall we want to print int
la \$a0, int2            # give syscall int2 to print
syscall                 # actually print int
li \$v0, 4               # tell syscall we want to print string
la \$a0, c_eq            # tell syscall we want to print operator
syscall                 # actually print string
li \$v0, 1               # tell syscall we want to print integer
la \$a0, out             # give syscall our output
syscall                 # actually print int
la \$t0, remain          # load remainder
beq \$t0, \$zero, again   # if we have no remainder, finish printing
li \$v0, 4               # tell syscall we want to print string
la \$a0, rmndr           # tell syscall we want to print remainder string
syscall                 # print "r: "
li \$v0, 1               # tell syscall we want to print int
la \$a0, remain          # give syscall our remainder to print
syscall                 # print remainder

again:  li \$v0, 4               # tell syscall we want to print string
la \$a0, new_line        # tell syscall to print new line
syscall
la \$a0, again_str       # load prompt for again string for syscall
syscall
li \$v0, 8               # tell syscall we want to read string
la \$a0, a_char          # tell syscall to put it in \$a0
syscall
lb \$t0, a_char
li \$t1, 'n'             # get n char so we can compare
beq \$t0, \$t1, exit      # if we are done, exit
#else loop

error:  li \$v0, 4               # tell syscall we want to print string
la \$a0, i_err           # give syscall what to print
syscall                 # actually print
j again                 # go to prompt for retry

exit:   li \$v0, 10              # exit code
syscall                 #exit!
``````

screenshot

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The problem is that you don't use the appropriate instruction to handle memory.

1. Instead of `move` you should use `sw` (store word). This code will not store the int into `int1`:

``````la \$s1, int1            # load int1 into \$s1
move \$s1, \$v0           # copy the integer from \$v0 to int1
``````

``````la \$s1, int1            # load address of int1 into \$s1
``````la \$s1, p_op              # or whatever register you choose to use
if you want to load the address of p_op into `\$a0`, you should use `la \$a0, p_op`, not `lb`