# Finding offset from a code snippet

I am a bit stuck up with the following question,

Consider the following MIPS code and answer the questions that follow.

``````addi \$t1, \$s0, 400
loop: lw \$s1, 0(\$s0)
add \$s2, \$s2, \$s1
lw \$s1, 4(\$s0)
add \$s2, \$s2, \$s1
addi \$s0, \$s0, 8
bne \$t1, \$s0, loop
``````

What value is the label loop translated to in the conditional branch instruction?

Now I know the mathematical formula for Branch Target Address. But here as memory addressing is not done so I found out the offset by counting the lines between the target address and PC. This gives the answer to be 7 (word offset). Am I right with this approach?

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Really? Vladimir's answer chosen? Unbelievable... – m0skit0 Nov 8 '11 at 14:52
@m0skit0: Yes, both of you were correct with the answers. He had mentioned PC+4 too. – Fahad Uddin Nov 9 '11 at 9:22
I answered before him and more elaborate. Anyway np. – m0skit0 Nov 9 '11 at 22:45
@m0skit0: Thankyou for that. – Fahad Uddin Nov 10 '11 at 11:59

A quick experiment with MARS simulator http://courses.missouristate.edu/KenVollmar/MARS/download.htm gave me the answer-6, -5 for number of lines difference and another -1 because PC is increased by 1 after the instruction.

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AFAIK, I'm afraid not.

As MIPS instruction reference says:

An 18-bit signed offset (the 16-bit offset field shifted left 2 bits) is added to the address of the instruction following the branch (not the branch itself), in the branch delay slot, to form a PC-relative effective target address.

So as I understand, the distance from the branch instruction to the `loop` label is negative (because the label is before the branch, thus the address is lower). The distance is calculated in number of words (hence the 2 bits left shift). As all MIPS instructions are 4 bytes, this would be 6 instructions before, hence -6 is the value that should appear in the branch instruction offset (lower half-word). In binary: 1111 1111 1111 1010 (two's complement). In hexadecimal: FFFA.

Checked with simulator and seems that my reasoning is correct since the instruction is coded as 0x1530FFFA.

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You were faster, just correction, 4 bytes, not bits is the width of the encoded instruction. – Vladimir F Nov 8 '11 at 13:15
Yeah, fixed. Too much bit manipulation xDDD – m0skit0 Nov 8 '11 at 13:19