# Algorithm to store 64 bit number represented by a string in two 32b registers in MIPS

This is an assembly language problem. I already figured out how to accept user input as a string and the convert it to integer

Multiply current sum by 10 (shift by 3 and shift by 1 position to the left then add two results together)and add new digit from the string (already converted to number by subtracting 48)

Now up until the point of overflow this would work fine, but then how does the number get split up to fit into two registers? Does it have to be divided or bit shifted? Please explain in details!

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For this you will need to synthesize double-width operations, namely shifting and addition.

For the shift, apart from shifting both halves separately, you need to bring in the spilled top bits from the low half into the high half. For that you shift the low half right as appropriate then use bitwise `OR` or addition to put them into the high half.

In pseudocode (using logical shifts):

``````result_low = (orig_low << n)
result_high = (orig_high << n) | (orig low >> (32 - n))
``````

For the addition, you process the low half then check if it is less than one of the original operands. If it is, that means an overflow occurred and you have to add the carry to the high half as well as the high half of the addend.

``````result_low = op1_low + op2_low
result_high = op1_high + op2_high + ((result_low < op1_low) ? 1 : 0)
``````

A possible asm implementation:

``````    la \$t2, buff            ; pointer to string
li \$t0, 0               ; low
li \$t1, 0               ; high
loop:
lb \$t3, (\$t2)           ; load next byte
beq \$t3, \$zero, done    ; end of string?
addi \$t3, \$t3, -48      ; convert from ascii
; t4,5 = t0,1 << 1
srl \$t6, \$t0, 31        ; t6 is used for the spilled bit
sll \$t4, \$t0, 1         ; shift low half
sll \$t5, \$t1, 1         ; shift high half
or \$t5, \$t5, \$t6        ; put in the spilled bit
; t0,1 <<= 3
srl \$t6, \$t0, 29        ; the 3 spilled bits
sll \$t0, \$t0, 3         ; shift low half
sll \$t1, \$t1, 3         ; shift high half
or \$t1, \$t1, \$t6        ; put in the spilled bits
; t0,1 += t4,5
sltu \$t6, \$t0, \$t4      ; t6 = (t0 < t4), that is the carry
; ok t0,1 has been multiplied by 10
sltu \$t6, \$t0, \$t3      ; the carry

addiu \$t2, \$t2, 1       ; increment pointer
b loop                  ; and continue
done:
``````

You could of course also directly use multiplication instead of shifts.

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Thank you very much, this works perfectly. Now I will study the code and follow your logic. This literally saved me –  da_dude Dec 12 '12 at 2:09

The number are bit shifted. You can refer the multiplication sequence given on wiki to get the idea how LO and HI registers are populated

LO = ((\$s * \$t) << 32) >> 32; HI = (\$s * \$t) >> 32;

en.m.wikipedia.org/wiki/MIPS_architecture#section_6

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