# Adding integer value to an array?

I am new to MIPS and do not understand what is going on here:

Suppose word array A stores 0,1,2,3,4,5,6,7,8,9, in this order. Assume the starting address of A is in \$s0. After the following instructions, what will be the values this array?

``````addi \$t0, \$s0, 32
lw \$t1, 0(\$t0)
sw \$t1, 4(\$t0)

(a) 0,1,2,3,4,5,6,7,8,9
(b) 0,1,2,3,4,5,6,7,9,9
(c) 0,1,2,3,4,5,6,7,8,8
(d) None of the above.
``````

The answer is "c", but I do not understand why. Here is my thought process:

First line of code:

Since this is an integer array, adding 32 to the address \$s0 and giving it to \$t0 would mean giving the address of A[8] to \$t0. A[8] because each integer requires 4 bytes, thus adding 0 to \$s0 would result in the address of A[0] and adding 4 to \$s0 would result in the address of A[1], and so on...

Second line of code:

0(\$t0) is referencing the first element in \$t0 (which I have no idea what that is) and loading it to the register \$t1.

Third line of code:

The address of \$t1 is stored in memory to the first element of \$t0, which is symbolized by 4(\$t0).

Again, the above is my thought process, which is most likely wrong

-
The first line, `addi \$t0, \$s0, 32` assigns \$t0 = \$s0 + 32. As \$s0 contains the address of the first element of array A, and knowing that each element of this array occupies 4 bytes, \$t0 will now hold the address of the ninth element of the array A, A[8] (indices starting with 0). So *\$t0=address_of(A[8])*
So, the second line, `lw \$t1, 0(\$t0)`, will load word stored at address \$t0+0, which is A[8], and stores this word in register \$t1. Therefore, \$t1=8.
The third line, `sw \$t1, 4(\$t0)`, will store the word contained in \$t1 at address \$t0+4, which is the address_of(A[9]). Therefore, A[9]=8.