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How Can I make "true" this istrution?

CMP             R0, #0

What I want to do is for example make

CMP R0,R0 or CMP #0, #0

00 28 is the op code. I try to do 28 28 without results! Another question what kind of istructions is BNE.W? what this the final W? How can I mod that in a BE? op code is 40 F0 65 85

NOTE: All op codes are in thumb mode!

* EDIT Does exists an armv7 compiler for Mac?

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What CPU is this for??? Add the appropriate tag. –  Alexey Frunze Feb 21 '12 at 20:16
    
Arm Processor! sorry –  Usi Usi Feb 21 '12 at 20:42
    
Assemble the instruction CMP R0, R0 or CMP #0, #0 and replace the above opcode with this one. –  AusCBloke Feb 21 '12 at 20:54
    
nice solution! How can I do that if it is for an arm7 processor? And It use thumb mode... Can you tell me something for BNE.W? What kind of istruction is it? –  Usi Usi Feb 21 '12 at 21:00
    
Use any sort of ARMv7 assembler you have to compile the code and extract the opcode. I've never done any ARM work before so I don't know what thumb mode is, but the W usually means WORD. Anyway, I'm probably wrong but try 80 42 for CMP R0, R0. That's what I came up with from quickly looking at an ARMv5 manual. I came up with 00 28 from CMP R0, #0 so it might actually be right (or not). –  AusCBloke Feb 21 '12 at 21:18

1 Answer 1

up vote 1 down vote accepted

You can simply assemble CMP R0, R0 or CMP #0, #0 and extract the needed opcode from those instructions that way.


Another way is to look at an ARM reference manual and manually build up the opcode. This is an ARMv5 manual I quickly found and under 7.1.22 you have CMP <Rn>, <Rm> with details of building the opcode for comparing two registers. The details seem to be the same as an ARMv7 manual I also found just before I was about to post.

It has bits 15-6 being 0 1 0 0 0 0 1 0 1 0, then bits 5-3 are the number of the first register (number 0 represented by 3 bits for R0), and bits 2-0 being the second register (also R0). So your opcode would now be:

0 1 0 0 0 0 1 0 1 0 (CMP) 000 (R0) 000 (R0)

100001010000000 in hex is 4280, therefore in little-endian order the two bytes you need are 80 42.

As you can see, it'd be a lot quicker to just let an assembler work that out for you.

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