Re: understanding assertions, part deux :) Re: whither built in unlifted Word32# / Word64# etc?

1 Aug 2018

      So the issue was core lint type error rather than a cmm lint error?  Glad
you figured it out !

But you didn’t communicate what the error you got from lint was core rather
than cmm ...  :(

On Wed, Aug 1, 2018 at 11:25 PM Abhiroop Sarkar 
wrote:
...
Never mind I found the issue and fixed it.
It was the definition of the `Int32` type constructor:
int32PrimTyCon  = pcPrimTyCon0 int32PrimTyConName IntRep
which had to be fixed to
int32PrimTyCon  = pcPrimTyCon0 int32PrimTyConName Int32Rep
Thanks anyways :)
Abhiroop
On Wed, Aug 1, 2018 at 5:36 PM Abhiroop Sarkar 
wrote:
...
Hello,
I would appreciate some help in debugging a Cmm Lint error, I have been
stuck on for quite a while.
Basically I am adding support for Int32# on top of the In8#(D4475) and
Int16#(D5006) patches.
The Cmm being generated for the test programs are incorrect.
Taking a sample test like this (
https://github.com/Abhiroop/ghc-1/blob/int8/testsuite/tests/ffi/should_run/P...
)
The crux of the linting error is the type mismatch between LHS and RHS of
the CmmAssign statement.
For example in the Int8 patch, the Cmm generated looks like this:
```
           _s1MC::I8 = I8[Sp];   // CmmAssign
           _s1MD::I8 = I8[Sp + 8];   // CmmAssign
           _s1ME::I8 = I8[Sp + 16];   // CmmAssign
           _s1MF::I8 = I8[Sp + 24];   // CmmAssign
           _s1MG::I8 = I8[Sp + 32];   // CmmAssign
           _s1MH::I8 = I8[Sp + 40];   // CmmAssign
           _s1MI::I8 = I8[Sp + 48];   // CmmAssign
           _s1MJ::I8 = I8[Sp + 56];   // CmmAssign
           _s1MK::I8 = I8[Sp + 64];   // CmmAssign
           _s1ML::I8 = I8[Sp + 72];   // CmmAssign
           R6 = %MO_XX_Conv_W8_W64(_s1MG::I8);   // CmmAssign
           R5 = %MO_XX_Conv_W8_W64(_s1MF::I8);   // CmmAssign
           R4 = %MO_XX_Conv_W8_W64(_s1ME::I8);   // CmmAssign
           R3 = %MO_XX_Conv_W8_W64(_s1MD::I8);   // CmmAssign
           R2 = %MO_XX_Conv_W8_W64(_s1MC::I8);   // CmmAssign
```
or
```
           _c1Oq::I8 = %MO_SS_Conv_W64_W8(9);   // CmmAssign
           _s1N0::I8 = _c1Oq::I8;   // CmmAssign
           _c1Ou::I8 = %MO_SS_Conv_W64_W8(8);   // CmmAssign
           _s1MZ::I8 = _c1Ou::I8;   // CmmAssign
           _c1Ox::I8 = %MO_SS_Conv_W64_W8(7);   // CmmAssign
           _s1MY::I8 = _c1Ox::I8;   // CmmAssign
           _c1OA::I8 = %MO_SS_Conv_W64_W8(6);   // CmmAssign
           _s1MX::I8 = _c1OA::I8;   // CmmAssign
           _c1OD::I8 = %MO_SS_Conv_W64_W8(5);   // CmmAssign
           _s1MW::I8 = _c1OD::I8;   // CmmAssign
           _c1OG::I8 = %MO_SS_Conv_W64_W8(4);   // CmmAssign
           _s1MV::I8 = _c1OG::I8;   // CmmAssign
           _c1OJ::I8 = %MO_SS_Conv_W64_W8(3);   // CmmAssign
           _s1MU::I8 = _c1OJ::I8;   // CmmAssign
```
Basically the registers on the left hand side have type `I8`, whereas in
my case the registers on the LHS always have the width equal to the word
size:
```
           _c1Ok::I64 = %MO_SS_Conv_W64_W32(9);   // CmmAssign
           _s1N0::I64 = _c1Ok::I64;   // CmmAssign
           _c1Oo::I64 = %MO_SS_Conv_W64_W32(8);   // CmmAssign
           _s1MZ::I64 = _c1Oo::I64;   // CmmAssign
           _c1Or::I64 = %MO_SS_Conv_W64_W32(7);   // CmmAssign
           _s1MY::I64 = _c1Or::I64;   // CmmAssign
           _c1Ou::I64 = %MO_SS_Conv_W64_W32(6);   // CmmAssign
           _s1MX::I64 = _c1Ou::I64;   // CmmAssign
           _c1Ox::I64 = %MO_SS_Conv_W64_W32(5);   // CmmAssign
           _s1MW::I64 = _c1Ox::I64;   // CmmAssign
           _c1OA::I64 = %MO_SS_Conv_W64_W32(4);   // CmmAssign
           _s1MV::I64 = _c1OA::I64;   // CmmAssign
           _c1OD::I64 = %MO_SS_Conv_W64_W32(3);   // CmmAssign
           _s1MU::I64 = _c1OD::I64;   // CmmAssign
           _c1OG::I64 = %MO_SS_Conv_W64_W32(2);   // CmmAssign
           _s1MT::I64 = _c1OG::I64;   // CmmAssign
```
I would ideally want to have the datatype of the LHS be `I32`.
Michal, I thought this type is picked up using the `primRepCmmType`
function
https://github.com/Abhiroop/ghc-1/blob/int8/compiler/cmm/CmmUtils.hs#L104-L1... which
I modified but I am not sure why the LHS types of the CmmAssign statement
allocate `I64` instead of `I32`. Is there any other change on your
patch(D4475) which I might have overlooked.
I have uploaded my Int32# patch on phab as well for reference(
https://phabricator.haskell.org/D5032)
Thanks,
Abhiroop
On Wed, Aug 1, 2018 at 3:45 PM Michal Terepeta 
wrote:
...
I've rebased the diff and relaxed the assertion - do take a look if that
looks reasonable to you :)
https://phabricator.haskell.org/D4475
Cheers!
- Michal
On Wed, Jul 25, 2018 at 9:03 PM Michal Terepeta <
michal.terepeta@gmail.com> wrote:
...
Hi Carter,
I didn't write this assertion. I only validated locally (IIRC at the
time I uploaded the diff, harbormaster was failing for some other reasons).
I'll try to have a look at it this weekend.
Cheers!
- Michal
On Wed, Jul 25, 2018 at 2:16 AM Carter Schonwald <
carter.schonwald@gmail.com> wrote:
...
Michal: did you write this Assert about width? and if so could you
explain it so we can understand?
hrmm... that code is in the procedure for generating C calls for
64bit  intel systems
https://github.com/michalt/ghc/blob/int8/compiler/nativeGen/X86/CodeGen.hs#L...
is the  top of that routine
and width is defined right below the spot in question
https://github.com/michalt/ghc/blob/int8/compiler/nativeGen/X86/CodeGen.hs#L...
it seems like the code/assertion likely predates michal's work? (eg, a
trick to make sure that genCCall64 doesn't get invoked by 32bit platforms?)
On Mon, Jul 23, 2018 at 8:54 PM Abhiroop Sarkar 
wrote:
...
Hi Michal,
In the tests that you have added to D4475, are all the tests running
fine?
On my machine, I was running the FFI tests(
https://github.com/michalt/ghc/blob/int8/testsuite/tests/ffi/should_run/Prim...)
and they seem to fail at a particular assert statement in the code
generator.
To be precise this one:
https://github.com/michalt/ghc/blob/int8/compiler/nativeGen/X86/CodeGen.hs#L...
Upon commenting that assert the tests run fine. Am I missing
something or is the failure expected?
Thanks,
Abhiroop
On Mon, Jul 9, 2018 at 8:31 PM Michal Terepeta <
michal.terepeta@gmail.com> wrote:
> Just for the record, I've uploaded the changes to binary:
> https://github.com/michalt/packages-binary/tree/int8
>
> - Michal
>
> On Wed, Jul 4, 2018 at 11:07 AM Michal Terepeta <
> michal.terepeta@gmail.com> wrote:
>
>> Yeah, if you look at the linked diff, there are a few tiny changes
>> to binary that are necessary.
>>
>> I'll try to upload them to github later this week.
>>
>> Ben, is something blocking the review of the diff? I think I
>> addressed all comments so far.
>>
>> - Michal
>>
>> On Wed, Jul 4, 2018 at 1:38 AM Abhiroop Sarkar <
>> asiamgenius@gmail.com> wrote:
>>
>>> Hello Michal,
>>>
>>> I was looking at your diff https://phabricator.haskell.org/D4475
>>> and there seems to be some changes that you perhaps made in the binary
>>> package (
>>> https://phabricator.haskell.org/differential/changeset/?ref=199152&whitespace=ignore-most).
>>> I could not find your version of binary on your github repos list. Is it
>>> possible for you to upload that so I can pull those changes?
>>>
>>> Thanks
>>>
>>> Abhiroop
>>>
>>> On Mon, May 28, 2018 at 10:45 PM Carter Schonwald <
>>> carter.schonwald@gmail.com> wrote:
>>>
>>>> Abhiroop has the gist, though the size of word args for simd is
>>>> more something we want to be consistent between 32/64 bit modes aka ghc
>>>> targeting 32 or 64 bit intel with simd support :).  It would be best if the
>>>> unpack and pack operations that map to and from unboxed tuples where
>>>> consistent and precise type wise.
>>>>
>>>>
>>>>
>>>> -Carter
>>>>
>>>> On May 28, 2018, at 5:02 PM, Abhiroop Sarkar <
>>>> asiamgenius@gmail.com> wrote:
>>>>
>>>> Hello Michal,
>>>>
>>>> My understanding of the issues are much lesser compared to
>>>> Carter. However, I will state whatever I understood from discussions with
>>>> him. Be warned my understanding might be wrong and Carter might be asking
>>>> this for some completely different reason.
>>>>
>>>> > Out of curiosity, why do you need Word64#/Word32# story to be
>>>> fixed for SIMD?
>>>>
>>>> One of the issues we are dealing with is multiple
>>>> microarchitectures(SSE, AVX, AVX2 etc). As a result different
>>>> microarchitectures has different ways of handling an 8 bit or 16 bit or 32
>>>> bit unsigned integer. An example I can provide is the vector multiply
>>>> instruction which has different semantics of multiplying and storing the
>>>> first 16 bits of a 32 bit unsigned integer compared to the lower 16 bits
>>>> for each of the elements in its SIMD registers. There will be some other
>>>> intricacies around handling a byte sized integer or a 64 bit integer which
>>>> will be different from the 32 bit version.
>>>>
>>>> Basically a 128 bit vector instruction will make some minor
>>>> differences when dealing with 2 64 bit integers or 4 32 bit integer or 8 16
>>>> bit integers.
>>>>
>>>> So I think at the higher level we would want to be as precise as
>>>> possible when specifying the datatypes and want things like Word8#,
>>>> Word16#, Word32#, Word64# rather than a single ambiguous type like Word.
>>>>
>>>> One more example is this vector operation like :
>>>> broadcastWord64X2# :: Word#
>>>> https://hackage.haskell.org/package/ghc-prim-0.5.2.0/docs/GHC-Prim.html#t:Wo...
>>>>  -> Word64X2#
>>>> https://hackage.haskell.org/package/ghc-prim-0.5.2.0/docs/GHC-Prim.html#t:Wo... which
>>>> should rather be broadcastWord64X2# :: Word64#
>>>> https://hackage.haskell.org/package/ghc-prim-0.5.2.0/docs/GHC-Prim.html#t:Wo...
>>>>  -> Word64X2#
>>>> https://hackage.haskell.org/package/ghc-prim-0.5.2.0/docs/GHC-Prim.html#t:Wo...
>>>>
>>>> Another reason could be improving the space efficiency of packing
>>>> various datatypes. This was explained in some detail in this comment:
>>>> https://github.com/ghc-proposals/ghc-proposals/pull/74#issuecomment-33395155...
>>>>
>>>> Thanks,
>>>> Abhiroop
>>>>
>>>> On Mon, May 28, 2018 at 6:06 PM, Michal Terepeta <
>>>> michal.terepeta@gmail.com> wrote:
>>>>
>>>>> Hey Carter,
>>>>>
>>>>> Yeah, I'm totally snowed under with personal stuff at the
>>>>> moment, so not much time to hack on
>>>>> anything. I've managed to make some progress on
>>>>> https://phabricator.haskell.org/D4475 (prototype
>>>>> that adds Int8#/Word8#; waiting for another round of review).
>>>>> Sadly June still looks a bit crazy for
>>>>> me, so I can't promise anything for Word64#/Word32# (and
>>>>> Int64#/Int32#). I hope to have some more
>>>>> time in July.
>>>>>
>>>>> If this is blocking you, then please don't wait for me and go
>>>>> ahead (my diff for Int8#/Word8# might
>>>>> be a decent starting point to see which places might need
>>>>> changes).
>>>>>
>>>>> Out of curiosity, why do you need Word64#/Word32# story to be
>>>>> fixed for SIMD? Cmm already has
>>>>> separate types for vector types (see TyCon.hs and VecRep
>>>>> constructor of PrimRep).
>>>>>
>>>>> Cheers!
>>>>>
>>>>> - Michal
>>>>>
>>>>> PS. Are you coming to ZuriHac by any chance?
>>>>>
>>>>> On Mon, May 28, 2018 at 12:37 AM Carter Schonwald <
>>>>> carter.schonwald@gmail.com> wrote:
>>>>>
>>>>>> Hey Michal!
>>>>>> So i'm mentoring Abhiroop around getting SIMD all nice and
>>>>>> awesome, and I realized we still dont quite yet have the nice Word32# and
>>>>>> Word64# etc story in ghc as yet.
>>>>>>
>>>>>> Whats the status on that and or is there a way we can help get
>>>>>> that over the hump for ghc? These different sized in register ints and
>>>>>> friends have a tight partnership with any nice SIMD iterating over the
>>>>>> summer, and hopefully helps inform the design
>>>>>>
>>>>>> -Carter
>>>>>>
>>>>>
>>>>
>>>>
>>>> --
>>>> Kloona - Coming Soon!
>>>>
>>>>
>>>
>>> --
>>> Kloona - Coming Soon!
>>>
>>
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