152 Commits

Author SHA1 Message Date
Nikita Popov
41d5033eb1 [IR] Enable opaque pointers by default
This enabled opaque pointers by default in LLVM. The effect of this
is twofold:

* If IR that contains *neither* explicit ptr nor %T* types is passed
  to tools, we will now use opaque pointer mode, unless
  -opaque-pointers=0 has been explicitly passed.
* Users of LLVM as a library will now default to opaque pointers.
  It is possible to opt-out by calling setOpaquePointers(false) on
  LLVMContext.

A cmake option to toggle this default will not be provided. Frontends
or other tools that want to (temporarily) keep using typed pointers
should disable opaque pointers via LLVMContext.

Differential Revision: https://reviews.llvm.org/D126689
2022-06-02 09:40:56 +02:00
Nikita Popov
1721ff1dfd [GVN] Enable enable-split-backedge-in-load-pre option by default
This option was added in D89854. It prevents GVN from performing
load PRE in a loop, if doing so would require critical edge
splitting on the backedge. From the review:

> I know that GVN Load PRE negatively impacts peeling,
> loop predication, so the passes expecting that latch has
> a conditional branch.

In the PhaseOrdering test in this patch, splitting the backedge
negatively affects vectorization: After critical edge splitting,
the loop gets rotated, effectively peeling off the first loop
iteration. The effect is that the first element is handled
separately, then the bulk of the elements use a vectorized
reduction (but using unaligned, off-by-one memory accesses) and
then a tail of 15 elements is handled separately again.

It's probably worth noting that the loop load PRE from D99926 is
not affected by this change (as it does not need backedge
splitting). This is about normal load PRE that happens to occur
inside a loop.

Differential Revision: https://reviews.llvm.org/D126382
2022-05-30 09:55:58 +02:00
Nikita Popov
6346a026af [PhaseOrdering] Add test for unprofitable loop load PRE backedge splitting (NFC) 2022-05-25 16:06:41 +02:00
Nikita Popov
b2a13d3e2d [InstCombine] Use IRBuilder in freeze pushing transform (PR55619)
Use IRBuilder so that the newly created freeze instructions
automatically gets inserted back into the IC worklist.

The changed worklist processing order leads to some cosmetic
differences in tests.

Fixes https://github.com/llvm/llvm-project/issues/55619.
2022-05-24 15:48:28 +02:00
Florian Hahn
b7315ffc3c
[LAA,LV] Add initial support for pointer-diff memory checks.
This patch adds initial support for a pointer diff based runtime check
scheme for vectorization. This scheme requires fewer computations and
checks than the existing full overlap checking, if it is applicable.

The main idea is to only check if source and sink of a dependency are
far enough apart so the accesses won't overlap in the vector loop. To do
so, it is sufficient to compute the difference and compare it to the
`VF * UF * AccessSize`. It is sufficient to check
`(Sink - Src) <u VF * UF * AccessSize` to rule out a backwards
dependence in the vector loop with the given VF and UF. If Src >=u Sink,
there is not dependence preventing vectorization, hence the overflow
should not matter and using the ULT should be sufficient.

Note that the initial version is restricted in multiple ways:

1. Pointers must only either be read or written, by a single
   instruction (this allows re-constructing source/sink for
   dependences with the available information)
 2. Source and sink pointers must be add-recs, with matching steps
 3. The step must be a constant.
 3. abs(step) == AccessSize.

Most of those restrictions can be relaxed in the future.

See https://github.com/llvm/llvm-project/issues/53590.

Reviewed By: dmgreen

Differential Revision: https://reviews.llvm.org/D119078
2022-05-16 15:27:22 +01:00
Alexey Bataev
7ea03f0b4e [SLP]Improve reductions analysis and emission, part 1.
Currently SLP vectorizer walks through the instructions and selects
3 main classes of values: 1) reduction operations - instructions with same
reduction opcode (add, mul, min/max, etc.), which build the reduction,
2) reduced values - instructions with the same opcodes, but different
from the reduction opcode, 3) extra arguments - all other values,
instructions from the different basic block rather than the root node,
instructions with to many/less uses.

This scheme is not very efficient. It excludes some instructions and all
non-instruction values from the reductions (constants, proficient
gathers), to many possibly reduced values are marked as extra arguments.
Patch improves this process by introducing a bit extended analysis
stage. During this stage, we still try to select 3 classes of the
values: 1) reduction operations - same as before, 2) possibly reduced
values - all instructions from the current block/non-instructions, which
may build a vectorization tree, 3) extra arguments - instructions from
the different basic blocks. Additionally, an extra sorting of the
possibly reduced values occurs to build the scalar sequences which
highly likely will bed vectorized, e.g. loads are grouped by the
distance between them, constants are grouped together, cmp instructions
are sorted by their compare types and predicates, extractelement
instructions are sorted by the vector operand, etc. Also, these groups
are reordered by their length so the longest group is the first in the
list of the possibly reduced values.

The vectorization process tries to emit the reductions for all these
groups. These reductions, remaining non-vectorized possible reduced
values and extra arguments are then combined into the final expression
just like it was before.

Differential Revision: https://reviews.llvm.org/D114171
2022-05-02 12:03:58 -07:00
Simon Pilgrim
6f80830f06 [PhaseOrdering][X86] Use passes="" instead of passes='' so DOS can evaluate the cmd lines
Fix regenerating the tests on windows builds
2022-04-30 19:56:49 +01:00
Simon Pilgrim
c6994ec12e [PhaseOrdering][X86] Use passes="default<O3>" instead of passes='default<O3>' so DOS can evaluate the cmd lines
Fix regenerating the tests on windows builds
2022-04-30 19:53:07 +01:00
Nikita Popov
20cf4f8af8 [PhaseOrdering] Remove RUN lines for legacy PM (NFC) 2022-04-21 14:43:00 +02:00
Alexey Bataev
883571928c Revert "[SLP]Improve reductions analysis and emission, part 1."
This reverts commit 0e1f4d4d3cb08ff84df5adc4f5e41d0a2cebc53d to fix
a crash reported in PR54976
2022-04-19 06:17:03 -07:00
Alexey Bataev
0e1f4d4d3c [SLP]Improve reductions analysis and emission, part 1.
Currently SLP vectorizer walks through the instructions and selects
3 main classes of values: 1) reduction operations - instructions with same
reduction opcode (add, mul, min/max, etc.), which build the reduction,
2) reduced values - instructions with the same opcodes, but different
from the reduction opcode, 3) extra arguments - all other values,
instructions from the different basic block rather than the root node,
instructions with to many/less uses.

This scheme is not very efficient. It excludes some instructions and all
non-instruction values from the reductions (constants, proficient
gathers), to many possibly reduced values are marked as extra arguments.
Patch improves this process by introducing a bit extended analysis
stage. During this stage, we still try to select 3 classes of the
values: 1) reduction operations - same as before, 2) possibly reduced
values - all instructions from the current block/non-instructions, which
may build a vectorization tree, 3) extra arguments - instructions from
the different basic blocks. Additionally, an extra sorting of the
possibly reduced values occurs to build the scalar sequences which
highly likely will bed vectorized, e.g. loads are grouped by the
distance between them, constants are grouped together, cmp instructions
are sorted by their compare types and predicates, extractelement
instructions are sorted by the vector operand, etc. Also, these groups
are reordered by their length so the longest group is the first in the
list of the possibly reduced values.

The vectorization process tries to emit the reductions for all these
groups. These reductions, remaining non-vectorized possible reduced
values and extra arguments are then combined into the final expression
just like it was before.

Differential Revision: https://reviews.llvm.org/D114171
2022-04-12 17:46:11 -07:00
Muhammad Omair Javaid
a96638e50e Revert "[NFCI] Regenerate PhaseOrdering test checks"
This reverts commit e91fe08999d5f5d7e7777837c529bac692d06c1b.

Breaks following buildbots: https://lab.llvm.org/buildbot/#/builders/171
2022-04-04 15:30:57 +05:00
Dávid Bolvanský
e91fe08999 [NFCI] Regenerate PhaseOrdering test checks 2022-04-04 00:28:57 +02:00
Simon Pilgrim
5dde9c1286 [CostModel][X86] Reduce cost of extracting bool vector elements
For constant indices, these are now just a MOVMSK+TEST/BT
2022-03-18 19:02:47 +00:00
Nikita Popov
a266af7211 [InstCombine] Canonicalize SPF to min/max intrinsics
Now that integer min/max intrinsics have good support in both
InstCombine and other passes, start canonicalizing SPF min/max
to intrinsic min/max.

Once this sticks, we can stop matching SPF min/max in various
places, and can remove hacks we have for preventing infinite loops
and breaking of SPF canonicalization.

Differential Revision: https://reviews.llvm.org/D98152
2022-02-24 09:01:20 +01:00
William S. Moses
d9da6a535f [LICM][PhaseOrder] Don't speculate in LICM until after running loop rotate
LICM will speculatively hoist code outside of loops. This requires removing information, like alias analysis (https://github.com/llvm/llvm-project/issues/53794), range information (https://bugs.llvm.org/show_bug.cgi?id=50550), among others. Prior to https://reviews.llvm.org/D99249 , LICM would only be run after LoopRotate. Running Loop Rotate prior to LICM prevents a instruction hoist from being speculative, if it was conditionally executed by the iteration (as is commonly emitted by clang and other frontends). Adding the additional LICM pass first, however, forces all of these instructions to be considered speculative, even if they are not speculative after LoopRotate. This destroys information, resulting in performance losses for discarding this additional information.

This PR modifies LICM to accept a ``speculative'' parameter which allows LICM to be set to perform information-loss speculative hoists or not. Phase ordering is then modified to not perform the information-losing speculative hoists until after loop rotate is performed, preserving this additional information.

Reviewed By: lebedev.ri

Differential Revision: https://reviews.llvm.org/D119965
2022-02-17 20:13:07 -05:00
Roman Lebedev
07cf95942f
[NFC][PhaseOrdering] Improve test coverage for D119975 2022-02-17 14:58:22 +03:00
Roman Lebedev
a5b9987aab
[NFC][PhaseOrdering] spurious-peeling.ll: also test -O1/-O2 results 2022-02-17 00:18:53 +03:00
William S. Moses
73ee82871e
[NFC][PhaseOrdering] Precommit tests from D119965 2022-02-17 00:18:53 +03:00
Roman Lebedev
ee4ba9f3a1
Revert "[SimplifyCFG] Start redesigning FoldTwoEntryPHINode()."
Unfortunately, it seems we really do need to take the long route;
start from the "merge" block, find (all the) "dispatch" blocks,
and deal with each "dispatch" block separately, instead of simply
starting from each "dispatch" block like it would logically make sense,
otherwise we run into a number of other missing folds around
`switch` formation, missing sinking/hoisting and phase ordering.

This reverts commit 85628ce75b3084dc0f185a320152baf85b59aba7.
This reverts commit c5fff9095342a792bf4b9a077fe3c3a83c4e566c.
This reverts commit 34a98e1046e3aa55e5f26ab20a15e96b4034d25a.
This reverts commit 1e353f092288309d74d380367aa50bbd383780ed.
2022-02-03 12:32:50 +03:00
Alexey Bataev
8a1dfbc4d8 Revert "[SLP]Alternate vectorization for cmp instructions."
This reverts commit 842a2360a84692f2e4c37cc3e652640e6627d004 to fix the
bugs reported by users in https://reviews.llvm.org/D115955#3291538.
2022-02-02 12:06:36 -08:00
Alexey Bataev
842a2360a8 [SLP]Alternate vectorization for cmp instructions.
Added support for alternate ops vectorization of the cmp instructions.
It allows to vectorize either cmp instructions with same/swapped
predicate but different (swapped) operands kinds or cmp instructions
with different predicates and compatible operands kinds.

Differential Revision: https://reviews.llvm.org/D115955
2022-02-02 10:32:52 -08:00
Roman Lebedev
1e353f0922
[SimplifyCFG] Start redesigning FoldTwoEntryPHINode().
The current `FoldTwoEntryPHINode()` is not quite designed correctly.
It starts from the merge point, and then tries to detect
the 'divergence' point.

Because of that, it is limited to the simple two-predecessor case,
where the PHI completely goes away. but that is rather pessimistic,
and it doesn't make much sense from the costmodel side of things.

For example if there is some other unrelated predecessor of
the merge point,  we could split the merge point so that
the then/else blocks first branch to an empty block
and then to the merge point, and then we'd be able to speculate
the then/else code.

But if we'd instead simply start at the divergence point,
and look for the merge point, then we'll just natively support this case.

There's also the fact that `SpeculativelyExecuteBB()` already does
just that, but only if there is a single block to speculate,
and with a much more restrictive cost model.
But that also means we have code duplication.

Now, sadly, while this is as much NFCI as possible,
there is just no way to cleanly migrate to
the proper implementation. The results *are* going to be different
somewhat because of various phase ordering effects and SimplifyCFG
block iteration strategy.
2022-02-02 17:53:56 +03:00
Benjamin Kramer
0c3d22a592 Revert "[SLP]Alternate vectorization for cmp instructions."
This reverts commit 83620bd2ad867f706c699d0f2b8be10e43d9f3d7.

It's causing miscompilations, see review comments at
https://reviews.llvm.org/D115955
2022-02-02 13:08:51 +01:00
Alexey Bataev
83620bd2ad [SLP]Alternate vectorization for cmp instructions.
Added support for alternate ops vectorization of the cmp instructions.
It allows to vectorize either cmp instructions with same/swapped
predicate but different (swapped) operands kinds or cmp instructions
with different predicates and compatible operands kinds.

Differential Revision: https://reviews.llvm.org/D115955
2022-02-01 09:54:20 -08:00
Benjamin Kramer
5281f0dab2 Revert "[SLP]Alternate vectorization for cmp instructions."
This reverts commit afaaecc88c6e5989de8a6a0266610860ef99d9d6.

Crashes when compiling SciPy, test case https://reviews.llvm.org/P8276
2022-02-01 11:40:43 +01:00
Alexey Bataev
afaaecc88c [SLP]Alternate vectorization for cmp instructions.
Added support for alternate ops vectorization of the cmp instructions.
It allows to vectorize either cmp instructions with same/swapped
predicate but different (swapped) operands kinds or cmp instructions
with different predicates and compatible operands kinds.

Differential Revision: https://reviews.llvm.org/D115955
2022-01-31 11:11:25 -08:00
Sanjay Patel
892c731681 [Support] improve known bits analysis for leading zeros of multiply
Instead of summing leading zeros on the input operands, multiply the
max possible values of those inputs and count the leading zeros of
the result. This can give us an extra zero bit (typically in cases
where one of the operands is a known constant).

This allows folding away the remaining 'add' ops in the motivating
bug (modeled in the PhaseOrdering IR test):
https://github.com/llvm/llvm-project/issues/48399

Fixes #48399

Differential Revision: https://reviews.llvm.org/D115969
2021-12-20 09:10:50 -05:00
Philip Reames
e6ad9ef4e7 [instcombine] Canonicalize constant index type to i64 for extractelement/insertelement
The basic idea to this is that a) having a single canonical type makes CSE easier, and b) many of our transforms are inconsistent about which types we end up with based on visit order.

I'm restricting this to constants as for non-constants, we'd have to decide whether the simplicity was worth extra instructions. For constants, there are no extra instructions.

We chose the canonical type as i64 arbitrarily.  We might consider changing this to something else in the future if we have cause.

Differential Revision: https://reviews.llvm.org/D115387
2021-12-13 16:56:22 -08:00
Nikita Popov
ae7f468073 [NewPM] Fix MergeFunctions scheduling
MergeFunctions (as well as HotColdSplitting an IROutliner) are
incorrectly scheduled under the new pass manager. The code makes
it look like they run towards the end of the module optimization
pipeline (as they should), while in reality the run at the start.
This is because the OptimizePM populated around them is only
scheduled later.

I'm fixing this by moving these three passes until after OptimizePM
to avoid splitting the function pass pipeline. It doesn't seem
important to me that some of the function passes run after these
late module passes.

Differential Revision: https://reviews.llvm.org/D115098
2021-12-04 17:30:30 +01:00
Anton Afanasyev
c34d157fc7 [Passes] Move AggressiveInstCombine after InstCombine
Swap AIC and IC neighbouring in pipeline. This looks more natural and even
almost has no effect for now (three slightly touched tests of test-suite). Also
this could be the first step towards merging AIC (or its part) to -O2 pipeline.

After several changes in AIC (like D108091, D108201, D107766, D109515, D109236)
there've been observed several regressions (like PR52078, PR52253, PR52289)
that were fixed in different passes (see D111330, D112721) by extending their
functionality, but these regressions were exposed since changed AIC prevents IC
from making some of early optimizations.

This is common problem and it should be fixed by just moving AIC after IC
which looks more logically by itself: make aggressive instruction combining
only after failed ordinary one.

Fixes PR52289

Reviewed By: spatel, RKSimon

Differential Revision: https://reviews.llvm.org/D113179
2021-12-04 14:22:43 +03:00
Nikita Popov
5b94037a30 [PhaseOrdering] Add test for incorrect merge function scheduling
Add an -enable-merge-functions option to allow testing of function
merging as it will actually happen in the optimization pipeline.
Based on that add a test where we currently produce two identical
functions without merging them due to incorrect pass scheduling
under the new pass manager.
2021-12-04 10:12:04 +01:00
Anton Afanasyev
728736e77e [Test][PhaseOrdering] Precommit test for PR52289 2021-12-04 10:58:16 +03:00
Alexey Bataev
ddce6e0561 [SLP]Improve vectorization of cmp instructions sequences.
Final attempt to vectorize bundles of comptatible cmp instructions after
all other instructions processing.

Metric: SLP.NumVectorInstructions

Program                                                                             results results0 diff
        test-suite :: MultiSource/Benchmarks/mediabench/g721/g721encode/encode.test    1.00    5.00  400.0%
                              test-suite :: MultiSource/Benchmarks/PAQ8p/paq8p.test    8.00   11.00   37.5%
                    test-suite :: MultiSource/Benchmarks/Olden/voronoi/voronoi.test   20.00   26.00   30.0%
                test-suite :: External/SPEC/CINT2017rate/525.x264_r/525.x264_r.test 1344.00 1648.00   22.6%
               test-suite :: External/SPEC/CINT2017speed/625.x264_s/625.x264_s.test 1344.00 1648.00   22.6%
                              test-suite :: MultiSource/Benchmarks/Olden/bh/bh.test  102.00  124.00   21.6%
                test-suite :: MultiSource/Benchmarks/DOE-ProxyApps-C/CoMD/CoMD.test  118.00  133.00   12.7%
          test-suite :: External/SPEC/CFP2017speed/638.imagick_s/638.imagick_s.test 3233.00 3554.00    9.9%
           test-suite :: External/SPEC/CFP2017rate/538.imagick_r/538.imagick_r.test 3233.00 3554.00    9.9%
                        test-suite :: MultiSource/Benchmarks/Olden/power/power.test   64.00   70.00    9.4%
           test-suite :: External/SPEC/CFP2017rate/526.blender_r/526.blender_r.test 7879.00 8604.00    9.2%
           test-suite :: MultiSource/Benchmarks/Prolangs-C/simulator/simulator.test   50.00   54.00    8.0%
                        test-suite :: MultiSource/Applications/sqlite3/sqlite3.test   27.00   29.00    7.4%
             test-suite :: External/SPEC/CFP2017rate/510.parest_r/510.parest_r.test 8345.00 8955.00    7.3%
     test-suite :: MultiSource/Benchmarks/Prolangs-C/TimberWolfMC/timberwolfmc.test  694.00  738.00    6.3%
                        test-suite :: MultiSource/Benchmarks/MallocBench/gs/gs.test  361.00  382.00    5.8%
                      test-suite :: MultiSource/Benchmarks/7zip/7zip-benchmark.test  409.00  430.00    5.1%
     test-suite :: External/SPEC/CINT2017speed/600.perlbench_s/600.perlbench_s.test  140.00  147.00    5.0%
      test-suite :: External/SPEC/CINT2017rate/500.perlbench_r/500.perlbench_r.test  140.00  147.00    5.0%
             test-suite :: External/SPEC/CFP2017rate/511.povray_r/511.povray_r.test 4013.00 4206.00    4.8%
                       test-suite :: MultiSource/Applications/JM/ldecod/ldecod.test  966.00 1011.00    4.7%
                           test-suite :: SingleSource/Benchmarks/Misc/oourafft.test   65.00   68.00    4.6%
                            test-suite :: MultiSource/Benchmarks/Bullet/bullet.test 4219.00 4381.00    3.8%
                    test-suite :: MultiSource/Benchmarks/tramp3d-v4/tramp3d-v4.test 1911.00 1973.00    3.2%
      test-suite :: External/SPEC/CINT2017rate/531.deepsjeng_r/531.deepsjeng_r.test   62.00   64.00    3.2%
     test-suite :: External/SPEC/CINT2017speed/631.deepsjeng_s/631.deepsjeng_s.test   62.00   64.00    3.2%
                 test-suite :: External/SPEC/CINT2017speed/602.gcc_s/602.gcc_s.test  852.00  877.00    2.9%
                  test-suite :: External/SPEC/CINT2017rate/502.gcc_r/502.gcc_r.test  852.00  877.00    2.9%
                       test-suite :: MultiSource/Applications/JM/lencod/lencod.test 1624.00 1668.00    2.7%
                         test-suite :: MultiSource/Benchmarks/McCat/18-imp/imp.test   39.00   40.00    2.6%
test-suite :: MultiSource/Benchmarks/MiBench/consumer-typeset/consumer-typeset.test  613.00  624.00    1.8%
      test-suite :: MultiSource/Benchmarks/MiBench/consumer-lame/consumer-lame.test  378.00  383.00    1.3%
      test-suite :: MultiSource/Benchmarks/MiBench/consumer-jpeg/consumer-jpeg.test  293.00  295.00    0.7%
            test-suite :: MultiSource/Benchmarks/mediabench/jpeg/jpeg-6a/cjpeg.test  297.00  299.00    0.7%
      test-suite :: External/SPEC/CINT2017rate/523.xalancbmk_r/523.xalancbmk_r.test 5522.00 5534.00    0.2%
     test-suite :: External/SPEC/CINT2017speed/623.xalancbmk_s/623.xalancbmk_s.test 5522.00 5534.00    0.2%

Differential Revision: https://reviews.llvm.org/D114799
2021-12-01 07:26:29 -08:00
Philip Reames
37ead201e6 [runtime-unroll] Use incrementing IVs instead of decrementing ones
This is one of those wonderful "in theory X doesn't matter, but in practice is does" changes. In this particular case, we shift the IVs inserted by the runtime unroller to clamp iteration count of the loops* from decrementing to incrementing.

Why does this matter?  A couple of reasons:
* SCEV doesn't have a native subtract node.  Instead, all subtracts (A - B) are represented as A + -1 * B and drops any flags invalidated by such.  As a result, SCEV is slightly less good at reasoning about edge cases involving decrementing addrecs than incrementing ones.  (You can see this in the inferred flags in some of the test cases.)
* Other parts of the optimizer produce incrementing IVs, and they're common in idiomatic source language.  We do have support for reversing IVs, but in general if we produce one of each, the pair will persist surprisingly far through the optimizer before being coalesced.  (You can see this looking at nearby phis in the test cases.)

Note that if the hardware prefers decrementing (i.e. zero tested) loops, LSR should convert back immediately before codegen.

* Mostly irrelevant detail: The main loop of the prolog case is handled independently and will simple use the original IV with a changed start value.  We could in theory use this scheme for all iteration clamping, but that's a larger and more invasive change.
2021-11-12 15:44:58 -08:00
Dmitry Makogon
62f86d4f95 Reapply 5ec2386 "Reapply db28934 "[IndVars] Pass TTI to replaceCongruentIVs""
This reverts commit 7cd273c339cfe8427404f881ae280bd9fae6ff78.

Several patches with tests fixes have been applied:
0cada82f0a30e5ae22dce66b58604ab9b47a3897 "[Test] Remove incorrect test in GVN"
97cb13615d6d9df254e3c0f3deef9eaedfe189b6 "[Test] Separate IndVars test into AArch64 and X86 parts"
985cc490f17d28b20392ee214895d947b85120ef "[Test] Remove separated test in IndVars",
and test failures caused by 5ec2386 should be resolved now.
2021-11-10 17:36:14 +07:00
Douglas Yung
7cd273c339 Revert "Reapply db28934 "[IndVars] Pass TTI to replaceCongruentIVs""
This reverts commit 5ec23863320ca12bfabb6dcff1d0425cb614b7a5.

This change is causing test failures on the PS4 linux build bot: https://lab.llvm.org/buildbot/#/builders/139/builds/12871
2021-11-09 10:28:41 -08:00
Sanjay Patel
c36b7e21bd [InstCombine] enhance vector bitwise select matching
(Cond & C) | (~bitcast(Cond) & D) --> bitcast (select Cond, (bc C), (bc D))

This is part of fixing:
https://llvm.org/PR34047

That report shows a case where a bitcast is sitting between the select condition
candidate and its 'not' value due to current cast canonicalization rules.

There's a bitcast type restriction that might be violated in existing matching,
but I still need to investigate if that is possible -
Alive2 shows we can only do this transform safely when the bitcast is from
narrow to wide vector elements (otherwise poison could leak into elements
that were safe in the original code):
https://alive2.llvm.org/ce/z/Hf66qh

Differential Revision: https://reviews.llvm.org/D113035
2021-11-09 08:54:59 -05:00
Dmitry Makogon
5ec2386332 Reapply db28934 "[IndVars] Pass TTI to replaceCongruentIVs"
This reapplies patch db289340c841990055a164e8eb2a3b5ff25677bf.

The test failures on build with expensive checks caused by the patch happened due
to the fact that we sorted loop Phis in replaceCongruentIVs using llvm::sort,
which shuffles the given container if the expensive checks are enabled,
so equivalent Phis in the sorted vector had different mutual order from run
to run. replaceCongruentIVs tries to replace narrow Phis with truncations
of wide ones. In some test cases there were several Phis with the same
width, so if their order differs from run to run, the narrow Phis would
be replaced with a different Phi, depending on the shuffling result.

The patch ae14fae0ff4304022beda5ab484f84ac0fdda807 fixed this issue by
replacing llvm::sort with llvm::stable_sort.
2021-11-09 17:42:29 +07:00
Anton Afanasyev
ce4fa93db8 [SCCP] Tune cast instruction handling for overdefined operand
Extended value is known to be inside range smaller than full one.
Prevent SCCP to mark such value as overdefined.

Fixes PR52253

Differential Revision: https://reviews.llvm.org/D112721
2021-11-08 18:34:30 +03:00
Anton Afanasyev
fba1f36d13 [Test][SCCP] Precommit tests for PR52253 2021-11-08 16:59:38 +03:00
Dmitry Makogon
8d4eba6c0d Revert "[IndVars] Pass TTI to replaceCongruentIVs"
This reverts commit db289340c841990055a164e8eb2a3b5ff25677bf.

The patch caused 2 crashes with expensive checks enabled.
2021-11-08 19:35:14 +07:00
Dmitry Makogon
db289340c8 [IndVars] Pass TTI to replaceCongruentIVs
In IndVarSimplify after simplifying and extending loop IVs we call 'replaceCongruentIVs'.
This function optionally takes a TTI argument to be able to replace narrow IVs uses
with truncates of the widest one.
For some reason the TTI wasn't passed to the function, so it couldn't perform such
transform.
This patch fixes it.

Reviewed By: mkazantsev

Differential Revision: https://reviews.llvm.org/D113024
2021-11-08 19:20:53 +07:00
Sanjay Patel
ff30394de8 [PhaseOrdering] add tests for x86 abs/max using SSE intrinsics (PR34047); NFC
D113035
2021-11-03 09:13:23 -04:00
Roman Lebedev
b554e41e2d
[CVP] Canonicalize signed relational comparisons of scalar integers to unsigned comparison predicates
Now that the reasoning was added to ConstantRange in D90924,
this replicates IndVars variant of this transform (D111836)
in a pass that uses value range reasoning for the transform.

Reviewed By: nikic

Differential Revision: https://reviews.llvm.org/D112895
2021-11-01 12:16:05 +03:00
Alexey Bataev
ce14d1b690 [SLP]Do not reorder reduction nodes.
The final reduction nodes should not be reordered, the order does not
matter for reductions. Also, it might be profitable to vectorize smaller
reduction trees, reduction cost may compensate small tree cost.

Part of D111574

Differential Revision: https://reviews.llvm.org/D112467
2021-10-26 07:41:24 -07:00
Anton Afanasyev
7b07c01351 [InstCombine] Support arbitrary const shift amount for lshr (sext i1 ...)
Add lshr (sext i1 X to iN), C --> select (X, -1 >> C, 0) case. This expands
C == N-1 case to arbitrary C.

Fixes PR52078.

Reviewed By: spatel, RKSimon, lebedev.ri

Differential Revision: https://reviews.llvm.org/D111330
2021-10-15 13:39:13 +03:00
Anton Afanasyev
e23351cdc9 [Test][InstCombine] Precommit tests for PR52078 2021-10-15 13:38:40 +03:00
hyeongyu kim
ec8311444a [InstCombine] Update InstCombine to use poison instead of undef for shufflevector's placeholder (2/3)
This patch is for fixing potential shufflevector-related bugs like D93818.
As D93818, this patch change shufflevector's default placeholder to poison.
To reduce risk, it was divided into several patches, and this patch is for InstCombineCompares and InstructionCombining.

Reviewed By: spatel

Differential Revision: https://reviews.llvm.org/D110227
2021-09-23 00:14:50 +09:00
Arthur Eubanks
d49cb5b303 [SimplifyCFG] Add bonus when seeing vector ops to branch fold to common dest
This makes some tests in vector-reductions-logical.ll more stable when
applying D108837.

The cost of branching is higher when vector ops are involved due to
potential SLP transformations.

Reviewed By: spatel

Differential Revision: https://reviews.llvm.org/D108935
2021-09-16 10:50:36 -07:00