More straightforward means of doing this?

This is a homework problem. My code is giving the correct answer. Writing out the solution like I did was terribly confusing and took me a while. Is there a better way of coding this?

``````# Convert to MIPS: (((5 + 1) - (1 + 3) + (5 - 3)) - 1) – 5 + 3

main:
li \$t0 5
li \$t1 1
li \$t2 3
#         (((5   + 1)   - (1   + 3)   + (5   - 3))   - 1)   – 5   + 3
# becomes (((\$t0 + \$t1) - (\$t1 + \$t2) + (\$t0 - \$t2)) - \$t1) - \$t0 + \$t2
#         (((  \$t3    ) - (  \$t4    ) + (  \$t5    )) - \$t1) - \$t0 + \$t2

add \$t3, \$t0, \$t1
add \$t4, \$t1, \$t2
sub \$t5, \$t0, \$t2
sub \$t6, \$t3, \$t4
add \$t6, \$t6, \$t5
sub \$t6, \$t6, \$t1
sub \$t6, \$t6, \$t0
add \$a0, \$t6, \$t2

li \$v0, 1             # print \$a0
syscall

li \$v0, 10            # system call 10... lets us exit, load 10 in \$v0
syscall               # call the exit.
``````
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Are you using the SPIM emulator by chance? –  Sam I am Jan 26 '12 at 17:16
I am using QtSpim. My code is supposed to do a simple arithmetic problem. –  Amy Jan 26 '12 at 17:45
For the above arithmetic, the parenthesis don't change anything except sign in 1 case. You could just load your numbers (5,1,-1, -3, 5, 3, -1, -5, 3 into a RAM table and loop through reading a value, adding it to the total, then return the value when done. Would take very few registers and be a simple loop. –  Michael Dorgan Jan 26 '12 at 18:50

I saw the problem commented in your code.

Yes, you can do it in a more straight forward way. You just make a different section for each operation that happens in the order that they happen. but that would make your code longer, and not really that much more readable either

``````li \$t0 5
li \$t1 1
add \$t2, \$t0, \$t1

li \$t0 1
li \$t1 3
add \$t3, \$t0, \$t1

sub \$t4, t2, t3

li \$t0 5
li \$t1 3
sub \$t2, \$t0, \$t1

add \$t3, \$t4, \$t2

li \$t0 1
sub \$t2, \$t3, \$t0
#etc.
``````
-

If you have a MIPS C compiler, you can always compile this with optimizations turned off:

``````int main()
{
int one, three, five;
int result;

one = 1;
three = 3;
five = 5;

result = (((five + one) - (one + three) + (five - three)) - one) -
five + three;
return result;
}
``````

then run objdump on the resultant object code. It's not the way your professor wants you to do it, but you've already done that and you'll learn more.

Edit:

I usually run the C preprocessor on my assembly language files before passing them to the assembler. It can make things much easier to read, when particular registers are used for particular things:

``````#define FIVE  \$t0
#define ONE   \$t1
#define THREE \$t2
#define FIVE_PLUS_ONE    \$t3
#define ONE_PLUS_THREE   \$t4
#define FIVE_MINUS_THREE \$t5
#define ACCUM \$t6

main:
li FIVE 5
li ONE 1
li THREE 3
//         (((5   + 1)   - (1   + 3)   + (5   - 3))   - 1)   – 5   + 3
// becomes (((\$t0 + \$t1) - (\$t1 + \$t2) + (\$t0 - \$t2)) - \$t1) - \$t0 + \$t2
//         (((  \$t3    ) - (  \$t4    ) + (  \$t5    )) - \$t1) - \$t0 + \$t2

add FIVE_PLUS_ONE, FIVE, ONE
add ONE_PLUS_THREE, ONE, THREE
sub FIVE_MINUS_THREE, FIVE, THREE
sub ACCUM, FIVE_PLUS_ONE, ONE_PLUS_THREE
add ACCUM, ACCUM, FIVE_MINUS_THREE
sub ACCUM, ACCUM, ONE
sub ACCUM, ACCUM, FIVE
add \$a0, ACCUM, THREE

li \$v0, 1             // print \$a0
syscall

li \$v0, 10            // system call 10... lets us exit, load 10 in \$v0
syscall               // call the exit.
``````
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This is tantamount to cheating on my homework. –  Amy Jan 26 '12 at 16:57
You've already done your homework. Hand that in. This is a way to learn more about how computers do their things. –  nmichaels Jan 26 '12 at 18:26