# MIPS efficient using shifts

I have one homework assignment that I have to code a function in MIPS Assembly and that function must use shifts and must be the most efficient possible.

The assembly code is called on C by `func(n1,n2,n3,n4,n5);`

This is my code and it is working as expected.

``````01          .data
02          .text
03          .globl  func
04
05  func:
06
07      lw      \$8, 16(\$29)
08      addi    \$29,\$29, -20
09      sw      \$31,0(\$29)
10
11      # f = 16x1 + 8x2 + 4x3 + 2x4 + x5 This is what the function do
12
13
14      li      \$9,0
15      li      \$10,0
16      li      \$11,16
17
18              # Load the five function parameter on function
19      sb      \$4,4(\$29)
20      sb      \$5,8(\$29)
21      sb      \$6,12(\$29)
22      sb      \$7,16(\$29)
23      sb      \$8,20(\$29)
24
25      la      \$25,4(\$29)
26  loop:
27
28      lb      \$24,0(\$25)
29      mul     \$12,\$11,\$24
31
32      srl     \$11,\$11,1
35
37      ble     \$10,4,loop
38
39
40      move    \$2,\$9
41  end:
42
43      lw      \$31,0(\$29)
45      jr      \$31
``````

So what I'm asking is that this code can be done most efficient using shifts?

I have made a `srl` to access the value to multiply by but in don't know if using shifts I can access the 5 parameter of the function.

-

• Even though the code is working, you're not actually allocating enough space on the stack. You're allocating 20 bytes but you're accessing the 21st byte with `sb \$8,20(\$29)`.

• You don't have to index registers by 0: the offset is implicitly 0 if you just do `sw \$31,(\$29)`.

• I don't know what the conventions are in your class, but I'd suggest using the aliases for important registers, such as `\$ra` instead of `\$31`, `\$sp` instead of `\$29`, etc. I find it more readable.

• Lastly, the multiplication! Here's a hint:

`x << y` is the same as `x * (2^y)`. So `x << 4` is `x * 16`, `x << 3` is `x * 8`, etc.

Are your coefficients in the main equation all powers of 2? Yup. Here's what I suggest: start your loop counter at 4 and count down to 0. This way you can use the loop counter as the shift value, and it eliminates the need for using \$11.

-
Many thanks for your explanations. My Math backgroud is not the best so this little things get triky to me :) –  Favolas Apr 23 '12 at 8:16