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Hello I just have a basic question on some bit clearing in Assembly. Here is what I am trying below.

MOV R0, #OxFFFFFFFF   ;Load R0 with the HEX Values FFFFFFFF
BIC R0, R0, #0xBF    ;This should set bit 7 from my understanding as B is 1011 in hex

When performing the above it places the following value into R0 (0xFFFFFF4F) I wonder why this is?

If i do this bit clear it puts the value 0xFFFFFFBF

MOV R0, #OxFFFFFFFF   ;Load R0 with the HEX Values FFFFFFFF
BIC R0, R0, #00000000000000000000000001000000b

Can anyone help me understand these results?

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sorry this is kind of unrelated but can BIC be written in C? –  chaitanya.varanasi Nov 5 '12 at 1:04

2 Answers 2

I find it interesting that the assembler (gas) lets you try to mov with more than 8 significant bits without error...it just encodes a mvn for you.

d6008030 <TESTFUN>:
d6008030:   e3e00000    mvn r0, #0
d6008034:   e3c000bf    bic r0, r0, #191    ; 0xbf
d6008038:   e12fff1e    bx  lr

I get 0xFFFFFF40 which is the expected answer.

If you want to set bit 7, then

orr r0,r0,#0x80 ;@ (corrected from 0x70)

Or did you mean you wanted to set bit 6

orr r0,r0,#0x40

if you wanted to strip off all of the bits except bit 6, leaving only bit 6 set.

and r0,r0,#0x40

If you want to leave all but bit 6 set (clear bit 6) (bic=bit clear)

bic r0,r0,#0x40

Or were you trying to do this

mov r0,#0xFFFFFFFF ;@ this is an interesting shortcut
mov r1,#0xFFFFFFBF ;@ might as well keep using it
bic r0,r0,r1

which gives 0x00000040, which is the same as

mov r0,#0xFFFFFFFF ;@ this is an interesting shortcut
and r0,r0,#0x40

except the latter uses less instructions and registers

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I think you will see it better if you think about what BIC means/does: BIC Rd, Rn stands for "Rd AND NOT Rn".

So, with your last example:

Rn = 00000000000000000000000001000000b = 0x40
NOT Rn = 0xFFFFFFBF = 11111111111111111111111110111111b
Rd = 0xFFFFFFFF = 11111111111111111111111111111111b
Rd AND NOT Rn = 0xFFFFFFFBF = 11111111111111111111111110111111b

So, with BIC Rd, #0x40 you are clearing bit number 7 of Rd. Same thinking applies to your former example.

Hope this helps.

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