[Git][ghc/ghc][wip/T18291] 11 commits: Drop 32-bit Windows support

Ben Gamari gitlab at gitlab.haskell.org
Wed Jul 29 16:09:25 UTC 2020



Ben Gamari pushed to branch wip/T18291 at Glasgow Haskell Compiler / GHC


Commits:
aa054d32 by Ben Gamari at 2020-07-27T20:09:07-04:00
Drop 32-bit Windows support

As noted in #18487, we have reached the end of this road.

- - - - -
6da73bbf by Michalis Pardalos at 2020-07-27T20:09:44-04:00
Add minimal test for #12492

- - - - -
47680cb7 by Michalis Pardalos at 2020-07-27T20:09:44-04:00
Use allocate, not ALLOC_PRIM_P for unpackClosure#

ALLOC_PRIM_P fails for large closures, by directly using allocate
we can handle closures which are larger than the block size.

Fixes #12492

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3d345c96 by Simon Peyton Jones at 2020-07-27T20:10:19-04:00
Eta-expand the Simplifier monad

This patch eta-expands the Simplifier's monad, using the method
explained in GHC.Core.Unify Note [The one-shot state monad trick].
It's part of the exta-expansion programme in #18202.

It's a tiny patch, but is worth a 1-2% reduction in bytes-allocated
by the compiler.  Here's the list, based on the compiler-performance
tests in perf/compiler:

                    Reduction in bytes allocated
   T10858(normal)      -0.7%
   T12425(optasm)      -1.3%
   T13056(optasm)      -1.8%
   T14683(normal)      -1.1%
   T15164(normal)      -1.3%
   T15630(normal)      -1.4%
   T17516(normal)      -2.3%
   T18282(normal)      -1.6%
   T18304(normal)      -0.8%
   T1969(normal)       -0.6%
   T4801(normal)       -0.8%
   T5321FD(normal)     -0.7%
   T5321Fun(normal)    -0.5%
   T5642(normal)       -0.9%
   T6048(optasm)       -1.1%
   T9020(optasm)       -2.7%
   T9233(normal)       -0.7%
   T9675(optasm)       -0.5%
   T9961(normal)       -2.9%
   WWRec(normal)       -1.2%

Metric Decrease:
    T12425
    T9020
    T9961

- - - - -
57aca6bb by Ben Gamari at 2020-07-27T20:10:54-04:00
gitlab-ci: Ensure that Hadrian jobs don't download artifacts

Previously the Hadrian jobs had the default dependencies, meaning that
they would download artifacts from all jobs of earlier stages. This is
unneccessary.

- - - - -
0a815cea by Ben Gamari at 2020-07-27T20:10:54-04:00
gitlab-ci: Bump bootstrap compiler to 8.8.4

Hopefully this will make the Windows jobs a bit more reliable.

- - - - -
0bd60059 by Simon Peyton Jones at 2020-07-28T02:01:49-04:00
This patch addresses the exponential blow-up in the simplifier.

Specifically:
  #13253 exponential inlining
  #10421 ditto
  #18140 strict constructors
  #18282 another nested-function call case

This patch makes one really significant changes: change the way that
mkDupableCont handles StrictArg.  The details are explained in
GHC.Core.Opt.Simplify Note [Duplicating StrictArg].

Specific changes

* In mkDupableCont, when making auxiliary bindings for the other arguments
  of a call, add extra plumbing so that we don't forget the demand on them.
  Otherwise we haev to wait for another round of strictness analysis. But
  actually all the info is to hand.  This change affects:
  - Make the strictness list in ArgInfo be [Demand] instead of [Bool],
    and rename it to ai_dmds.
  - Add as_dmd to ValArg
  - Simplify.makeTrivial takes a Demand
  - mkDupableContWithDmds takes a [Demand]

There are a number of other small changes

1. For Ids that are used at most once in each branch of a case, make
   the occurrence analyser record the total number of syntactic
   occurrences.  Previously we recorded just OneBranch or
   MultipleBranches.

   I thought this was going to be useful, but I ended up barely
   using it; see Note [Note [Suppress exponential blowup] in
   GHC.Core.Opt.Simplify.Utils

   Actual changes:
     * See the occ_n_br field of OneOcc.
     * postInlineUnconditionally

2. I found a small perf buglet in SetLevels; see the new
   function GHC.Core.Opt.SetLevels.hasFreeJoin

3. Remove the sc_cci field of StrictArg.  I found I could get
   its information from the sc_fun field instead.  Less to get
   wrong!

4. In ArgInfo, arrange that ai_dmds and ai_discs have a simpler
   invariant: they line up with the value arguments beyond ai_args
   This allowed a bit of nice refactoring; see isStrictArgInfo,
   lazyArgcontext, strictArgContext

There is virtually no difference in nofib. (The runtime numbers
are bogus -- I tried a few manually.)

        Program           Size    Allocs   Runtime   Elapsed  TotalMem
--------------------------------------------------------------------------------
            fft          +0.0%     -2.0%    -48.3%    -49.4%      0.0%
     multiplier          +0.0%     -2.2%    -50.3%    -50.9%      0.0%
--------------------------------------------------------------------------------
            Min          -0.4%     -2.2%    -59.2%    -60.4%      0.0%
            Max          +0.0%     +0.1%     +3.3%     +4.9%      0.0%
 Geometric Mean          +0.0%     -0.0%    -33.2%    -34.3%     -0.0%

Test T18282 is an existing example of these deeply-nested strict calls.
We get a big decrease in compile time (-85%) because so much less
inlining takes place.

Metric Decrease:
    T18282

- - - - -
6ee07b49 by Sylvain Henry at 2020-07-28T02:02:27-04:00
Bignum: add support for negative shifts (fix #18499)

shiftR/shiftL support negative arguments despite Haskell 2010 report
saying otherwise. We explicitly test for negative values which is bad
(it gets in the way of constant folding, etc.). Anyway, for consistency
we fix Bits instancesof Integer/Natural.

- - - - -
f305bbfd by Peter Trommler at 2020-07-28T02:03:02-04:00
config: Fix Haskell platform constructor w/ params

Fixes #18505

- - - - -
a31689fe by Ben Gamari at 2020-07-29T12:09:19-04:00
Allow unsaturated runRW# applications

Previously we had a very aggressive Core Lint check which caught
unsaturated applications of runRW#. However, there is nothing
wrong with such applications and they may naturally arise in desugared
Core. For instance, the desugared Core of Data.Primitive.Array.runArray#
from the `primitive` package contains:

    case ($) (runRW# @_ @_) (\s -> ...) of ...

In this case it's almost certain that ($) will be inlined, turning the
application into a saturated application. However, even if this weren't
the case there isn't a problem: CorePrep (after deleting an unnecessary
case) can simply generate code in its usual way, resulting in a call to
the Haskell definition of runRW#.

Fixes #18291.

- - - - -
47d3683d by Ben Gamari at 2020-07-29T12:09:19-04:00
testsuite: Add test for #18291

- - - - -


30 changed files:

- .gitlab-ci.yml
- aclocal.m4
- compiler/GHC/Core/Coercion.hs
- compiler/GHC/Core/Lint.hs
- compiler/GHC/Core/Opt/OccurAnal.hs
- compiler/GHC/Core/Opt/SetLevels.hs
- compiler/GHC/Core/Opt/Simplify.hs
- compiler/GHC/Core/Opt/Simplify/Monad.hs
- compiler/GHC/Core/Opt/Simplify/Utils.hs
- compiler/GHC/Core/SimpleOpt.hs
- compiler/GHC/CoreToStg/Prep.hs
- compiler/GHC/Types/Basic.hs
- compiler/GHC/Types/Demand.hs
- compiler/GHC/Types/Id/Info.hs
- docs/users_guide/8.12.1-notes.rst
- libraries/base/Data/Bits.hs
- rts/PrimOps.cmm
- + testsuite/tests/codeGen/should_compile/T18291.hs
- testsuite/tests/codeGen/should_compile/all.T
- testsuite/tests/numeric/should_compile/T14465.stdout
- testsuite/tests/numeric/should_compile/T7116.stdout
- + testsuite/tests/numeric/should_run/T18499.hs
- + testsuite/tests/numeric/should_run/T18499.stdout
- testsuite/tests/numeric/should_run/all.T
- + testsuite/tests/perf/compiler/T10421.hs
- + testsuite/tests/perf/compiler/T10421_Form.hs
- + testsuite/tests/perf/compiler/T10421_Y.hs
- + testsuite/tests/perf/compiler/T10421a.hs
- + testsuite/tests/perf/compiler/T10421a_Form.hs
- + testsuite/tests/perf/compiler/T13253-spj.hs


The diff was not included because it is too large.


View it on GitLab: https://gitlab.haskell.org/ghc/ghc/-/compare/1556ebd389666417630ad833490ad042f58d75f3...47d3683d752a340ff89a2097307e0042d30ba603

-- 
View it on GitLab: https://gitlab.haskell.org/ghc/ghc/-/compare/1556ebd389666417630ad833490ad042f58d75f3...47d3683d752a340ff89a2097307e0042d30ba603
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