Dear discussion group,
I’ve to document a 68HC11A1-Code, were I use the MC68HC11A8.pdf document for details in the
instruction explaining, on page 24 to 26. Mine problem is there to decode the ↕,↓,↑ symbols in
the “Condition Codes” column.
I would be pleased if someone could explain me this symbols.
Mit freundlichen Grüßen
Kind regards
Franz L. Raaber, Dipl. – Ing.
Forschung & Entwicklung - Steuerungstechnik
Research & Development – control engineering
SSI Schäfer Peem GmbH
Fischeraustr. 27, 8051 Graz, Austria
phone +43 / 316 / 6096 – 582
email f.raaber@ssi-schaefer-peem.com<mailto:f.raaber@ssi-schaefer-peem.com>
web www.ssi-schaefer.com<;http://www.ssi-schaefer.com/>
skype ssi_graz_582
已解决! 转到解答。
Hello Franz,
I have to say I agree with Edward but I'm wondering if you'd be better reading the statement as:
↕ means "an" instruction "can" set or clear status bit.
↓ means "an" instruction "can" clear status bit, but can't set it.
Then, reading for a specific instruction
↕ means "the" instruction "could" set or clear "the" status bit.
↓ means "the" instruction "could" clear "the" status bit, but can't set it.
Hope this helps and doesn't confuse!
Ian
Thank you fore the sanded link, what these symbol describes, but these answers leads to mine fundamental question.
I'v the following code lines
staa InBetrieb
beq no_busy ;jumps if Z=1
jmp in_busy ;running!
where I've seen the second code line only branches if the staa-instruction Z sets to 1.
So do I read, to the instruction "staa", the lines
Z X7• X6 • X5 • X4 • X3 • X2 • X1 • X0
Set if result is $00; cleared otherwise.
in the RM, where for me the question appears what the "result" - of a staa-instruction - is?
I could imagine that the result $00 is, if for example the argument of the instruction a valid one is,
but I couldn't see these explanation on page 579 of the pdf-description.
So, when is the result of a staa-instruction $00?
I couldn't imagine that that result the value of accumulator a describes.
Hi Franz,
I must admit I'm a little confused by the STAA instruction on page 579 because I wouldn't necessarily expect a store instruction to set any conditional codes or return a value!? Although I guess I could accept that if accumulator A is 0 then Z is set as a result of executing the STAA instruction.
So to your question "when is the result of a staa-instruction $00" I would assume that it will be 0 if the accumulator A already contains a 0 value. Therefore, I'd be interested in looking back through your code to see how accumulator A is manipulated. For example, perhaps it is just loaded immediate with 0, which should set the Z flag or perhaps accumulator A is loaded with a value and following an addition or subtraction the result placed in accumulator A is 0, again setting the Z flag.
Again hope that helps and doesn't confuse! :smileyhappy:
Thanks,
Ian
↕ means that instruction may set or clear status bit.
↓ means that instruction may clear status bit, but can't set it. For example TAP instruction can only clear X bit (↓), and set or clear all other status bits (↕).
Once again, dear Mr. Karpicz,
do I have to ask you about your answer: you have used in booth answers the word “may”, which I read similar to the word
“could”. But if this case is true does, for the user, this information by the arrows have no real sense – or better said, doesn’t
the user get information, that could be used. Do you agree?
Kind regards
Franz Raaber
Von: Edward Karpicz
Gesendet: Mittwoch, 21. August 2013 11:10
An: Raaber Franz
Betreff: Re: - details to the 68HC11A1
<https://community.freescale.com/>
details to the 68HC11A1
reply from Edward Karpicz<https://community.freescale.com/people/kef2?et=watches.email.thread> in 8-bit Microcontrollers - View the full discussion<https://community.freescale.com/message/345892?et=watches.email.thread#345892>
Hello Franz,
I have to say I agree with Edward but I'm wondering if you'd be better reading the statement as:
↕ means "an" instruction "can" set or clear status bit.
↓ means "an" instruction "can" clear status bit, but can't set it.
Then, reading for a specific instruction
↕ means "the" instruction "could" set or clear "the" status bit.
↓ means "the" instruction "could" clear "the" status bit, but can't set it.
Hope this helps and doesn't confuse!
Ian
Hallo Ian,
thank you very much about your mail, but your explanation tells me that the instructions where
↕ and ↓ in the Condition Code appears doesn’t give me an certain information, in which value this
status bit appears. This symbol gives me only the information that this status bit is for the specified
instruction irrelevant, because it can’t be used to specify if this instruction executed was.
Do you agree?
Yours
Franz
Von: Ian Legg
Gesendet: Mittwoch, 21. August 2013 18:13
An: Raaber Franz
Betreff: Re: - details to the 68HC11A1
<https://community.freescale.com/>
details to the 68HC11A1
reply from Ian Legg<https://community.freescale.com/people/iansmusical?et=watches.email.thread> in 8-bit Microcontrollers - View the full discussion<https://community.freescale.com/message/345942?et=watches.email.thread#345942>
I think I got it :smileyhappy:. It seems you are looking for information provided in HC11 reference manual. It includes more detailed information about CPU flags, not just 0,1,↕ and ↓. Please download and navigate to Appendix A. Instruction Set Details
http://cache.freescale.com/files/microcontrollers/doc/ref_manual/M68HC11RM.pdf
No, I don't agree. How each status bit behaves is explained in detail for each instruction. 0, 1, -, ↕ and ↓ visualize how resulting flag behaviour is limited for given instruction. 0 - flag is always reset, 1 - always cleared, '-' - doesn't change, ↕ - the same like ir was, set or clear, ↓ - the same like ir was or clear only. This information helps when you need to execute one or more additional instructions before you do contitional branch. It helps determining do you need or not to save and restore status register while executing those extra instructions. For example say you need to test Y register for sign and then add B to Y before conditional branch:
CPY #0
TPA // save flags
ABY
TAP // restore flags
BPL go
ABY doesn't change flags, so you can remove marked lines.