[LLVMdev] keeping instructions in order and hidden dependencies

Reed Kotler rkotler at mips.com
Sat Feb 16 21:20:03 PST 2013 

One of my reasons for lowering things early is that I need to get an 
accurate count of the size of things.

Some of the pseudos even have instructions like compare immediate, which 
in Mips 16 has two forms depending on the magnitude of the immediate field.

Though I suppose it's possible to leave things as a pseudo and calculate 
their size, though I'm not sure where I could store the result.

I need the size for long/short jump optimization, constant islands, 
delay slot filling (on mips16 you can't put a 32 bit instruction in a 
delay slot) and other things.

I have not used bundles.

Is the idea that I could create a bundle and insert the instructions in 
the bundle and then they are guaranteed to stay together?

On 02/16/2013 09:09 PM, Cameron Zwarich wrote:
> AFAIK, You have two choices: use a pseudo that is lowered into separate instructions later as part of asm emission, or use MI bundles. The former is generally what existing targets use for this sort of thing, but perhaps the second would work better for you.
>
> Cameron
>
> On Feb 16, 2013, at 8:37 PM, Reed Kotler <rkotler at mips.com> wrote:
>
>> Some of my pseudos do conditional branch .+4 and such.
>>
>> I don't want the instruction scheduler to get creative on me.
>>
>> On 02/16/2013 07:20 PM, reed kotler wrote:
>>> I have some pseudos that I am expanding in the Mips 16 port. Currently
>>> they are blasted in one chunk as a multi line instruction sequence but I
>>> am changing the code now to expand them
>>> after register allocation.
>>>
>>> They are essentially macros and I need to make sure, at this time at
>>> least, that the individual instructions are not reordered or moved around.
>>>
>>> There are dependencies sometimes between the instructions that I'm not
>>> sure how to tell LLVM about.
>>>
>>> For example, this first one is a two instruction macro where register T8
>>> is implicitly set by the first instruction and used by the second
>>> instruction.
>>>
>>> T8 is not a mips16 registers but some instructions use it implicitly and
>>> it can function as
>>> a condition code register.
>>>
>>> In this first case, I do a compare (CMP) and the result sets T8 and then
>>> the branch instruction following it uses this as if it were a condition
>>> code register.
>>>
>>> Maybe I can just set first instruction as defining T8 and the second as
>>> using it for the last time.
>>>
>>> Without this expansion, this is not an issue.
>>>
>>> At some future time it might be possible to reuse this condition
>>> register later and move it around but for now I'm not needing that
>>> optimization.
>>>
>>> Tia.
>>>
>>> Reed
>>
>>
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