MIPS function call with more than four arguments

I understand that whenever I have a function that has more than four arguments in MIPS I should utilize the stack. However in my code below after saving the fifth argument at `sw \$t0, 4(\$sp)` and do a `jal sad`, then right at the beginning of the `sad` function I adjust the stack pointer again to save the `\$sx` registers that is used by the caller. Am I doing something wrong here?

``````vbsme:  subu    \$sp, \$sp, 8     # create space on the stack pointer
sw  \$ra, 0(\$sp)     # save return address

li  \$v0, 0          # reset \$v0
li  \$v1, 0          # reset \$v1
li  \$s0, 1          # i(row) = 1
li  \$s1, 1          # j(col) = 1
lw  \$s2, 0(\$a0)     # row size
lw  \$s3, 4(\$a0)     # col size
mul     \$s4, \$s2, \$s3       # row * col
li  \$s5, 0          # element = 0
loop:   bgeq    \$s5, \$s4, exit      # if element >= row * col then exit

subi    \$a3, \$s0, 1     # 4th parameter: i-1
subi    \$t0, \$s1, 1
sw  \$t0, 4(\$sp)     # 5th parameter: j-1

jal     sad         # calculate the sum of absolute difference using the frame starting from row a3 and col 4(\$sp)

andi \$s7, \$s6, 1
if: bneq \$s7, \$zero, else
inif:   bge \$s1, \$s2, inelse
j inif1
inif1:  subi \$s7, \$s0, 1
beq \$s7, \$zero, loop_back
subi \$s0, \$s0, 1
j loop_back
else:   bge \$s0, \$s2, inelse1
j inif2
inif2:  subi \$s7, \$s1, 1
beq \$s7, \$zero, loop_back
subi \$s1, \$s1, 1
j loop_back
j loop
exit:   lw  \$ra, 0(\$sp)     # restore return address
addi    \$sp, \$sp, 8     # restore stack pointer
jr \$ra              # return

sad:    subu \$sp, \$sp, 32       # allocate stack space for largest function
sw \$s7, 28(\$sp)         # save \$s7 value
sw \$s6, 24(\$sp)         # save \$s6 value
sw \$s5, 20(\$sp)         # save \$s5 value
sw \$s4, 16(\$sp)         # save \$s4 value
sw \$s3, 12(\$sp)         # save \$s3 value
sw \$s2, 8(\$sp)          # save \$s2 value
sw \$s1, 4(\$sp)          # save \$s1 value
sw \$s0, 0(\$sp)          # save \$s0 value

#some code to be filled later

lw \$s7, 28(\$sp)         # restore original value of \$s7 for caller
lw \$s6, 24(\$sp)         # restore original value of \$s6 for caller
lw \$s5, 20(\$sp)         # restore original value of \$s5 for caller
lw \$s4, 16(\$sp)         # restore original value of \$s4 for caller
lw \$s3, 12(\$sp)         # restore original value of \$s3 for caller
lw \$s2, 8(\$sp)          # restore original value of \$s2 for caller
lw \$s1, 4(\$sp)          # restore original value of \$s1 for caller
lw \$s0, 0(\$sp)          # restore original value of \$s0 for caller
addiu \$sp, \$sp, 32      # restore the caller's stack pointer
``````
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I dont see how the title relates to the question. – Tom Feb 19 '10 at 19:11
It does, I am asking on how to get the fifth argument in the function sad – aherlambang Feb 19 '10 at 19:19

This is how its done by gcc. For more information, you (could) should read the Mips ABI. Some things may differ.

http://math-atlas.sourceforge.net/devel/assembly/mipsabi32.pdf

By convention, the fifth argument should go on the fifth word of the stack.

So you should

``````sad:
sub \$sp,\$sp,24 #24 byte stack frame
... some code ...
#Convention indicates to store \$a0..\$a3 in A..D (see below)
sw \$a0,0(sp)
sw \$a1,4(sp)
sw \$a2,8(sp)
sw \$a3,12(sp)

#Get the 5th argument
lw \$t0,40(\$sp) #40 : 24 + 16
``````

To store the 5th argument in the stack, you should know this:

If vbsme is going to call another function, then the bottom 4 words of the stack should be saved for the callee to store argument values there. If more than 4 arguments are passed, then an additional word should be saved for each argument.

``````vbsme's stack frame bottom part (Argument building area)

|    ...       |
---------------
|   5th arg    |  <---- sw      \$t5,16(\$sp)
---------------
|     D        |
---------------
|     C        |
---------------
|     B        |
---------------
|     A        |
---------------  <--sp (of vbsme stack frame)
``````

Also, the \$ra register should be saved at the top of the stack, since its register 31.

``````vbsme:
subu    \$sp, \$sp, 20+N # 20: space for 5 arguments,
#N space for other stuff (ra,\$tx, etc)

#Set arguments (assumes 5th parameter value is in register \$t5)
subi    \$a3, \$s0, 1     # 4th parameter: i-1
sw      \$t5,16(\$sp)     #

...
.end
``````

In response to

``````Why is it that you do:
lw \$t0,40(\$sp)
to get the 5th argument, why did you add 24 to 16? when you do
sub \$sp,\$sp,24