# Most optimized way to set 63rd bit of a register of mips64 using assembly instruction

I need to set 63rd bit(MSB) of a 64-bit MIPS register in assembly language. Currently i am doing like this

``````ldi \$2,0x8000000000123456 #This is the address of the register which i want to set 63 rd bit
ld \$3,0(\$2) # read current value from the register
dli \$4,0x8000000000000000  # set 63rd bit as 1 and load in to register \$4
sd \$4,0(\$2)
``````

But this is very lengthy code. I want to do it in most optimized way. Is there any other way to do it?

-
Why do you use "dadd" and not "or" instruction? If you want to set a bit in memory you may read one byte only, then do an "ori" and save the byte back. –  Martin Rosenau Sep 28 '13 at 14:15

Your program is wrong. It's technically doing this

``````uint64_t* p = (uint64_t*)0x8000000000123456;
p += 0x8000000000000000;
``````

which actually toggles the top bits and won't get you the correct value if the value has the top bit set.

You should read more about bitwise operations. To clear a bit, use `and`, use `or` to set and `xor` to toggle a bit. You can do like this

``````ldi \$2, 0x8000000000123456
ld   \$3, 0(\$2)
lui  \$4, 0x8000 # \$4 = 0x80000000
dsll \$4, \$4, 31 # \$4 = 0x8000000000000000
or   \$4, \$3, \$4
sd   \$3, 0(\$2)
``````

Another way is just load the specific byte, halfword or word and edit it

``````# byte
ldi \$2, 0x8000000000123456 # assume big endian
lbu \$3, 0(\$2)
ori \$3, 0x80
sb  \$3, 0(\$2)

# halfword
ldi \$2, 0x8000000000123456
lhu \$3, 0(\$2)
ori \$3, 0x8000
sh  \$3, 0(\$2)

# word
ldi \$2, 0x8000000000123456
lbu \$3, 0(\$2)
lui \$4, 0x8000
or  \$3, \$4, \$3
sd  \$3, 0(\$2)
``````

Note that there's nothing called "register address". It's the register that contains the address to a memory location.

-