1264 Commits

Author SHA1 Message Date
David Sherwood
00e65f3345 [LoopVectorize][SVE] Fix crash when vectorising FP negation
This patch fixes a crash encountered when vectorising the following loop:

 void foo(float *dst, float *src, long long n) {
   for (long long i = 0; i < n; i++)
     dst[i] = -src[i];
 }

using scalable vectors. I've added a test to

 Transforms/LoopVectorize/AArch64/sve-basic-vec.ll

as well as cleaned up the other tests in the same file.

Differential Revision: https://reviews.llvm.org/D98054
2021-04-28 15:22:35 +01:00
David Sherwood
6998f8ae2d [LoopVectorize] Simplify scalar cost calculation in getInstructionCost
This patch simplifies the calculation of certain costs in
getInstructionCost when isScalarAfterVectorization() returns a true value.
There are a few places where we multiply a cost by a number N, i.e.

  unsigned N = isScalarAfterVectorization(I, VF) ? VF.getKnownMinValue() : 1;
  return N * TTI.getArithmeticInstrCost(...

After some investigation it seems that there are only these cases that occur
in practice:

1. VF is a scalar, in which case N = 1.
2. VF is a vector. We can only get here if: a) the instruction is a
GEP/bitcast/PHI with scalar uses, or b) this is an update to an induction
variable that remains scalar.

I have changed the code so that N is assumed to always be 1. For GEPs
the cost is always 0, since this is calculated later on as part of the
load/store cost. PHI nodes are costed separately and were never previously
multiplied by VF. For all other cases I have added an assert that none of
the users needs scalarising, which didn't fire in any unit tests.

Only one test required fixing and I believe the original cost for the scalar
add instruction to have been wrong, since only one copy remains after
vectorisation.

I have also added a new test for the case when a pointer PHI feeds directly
into a store that will be scalarised as we were previously never testing it.

Differential Revision: https://reviews.llvm.org/D99718
2021-04-28 13:41:07 +01:00
Sander de Smalen
584e9b6e4b [LV] Calculate max feasible scalable VF.
This patch also refactors the way the feasible max VF is calculated,
although this is NFC for fixed-width vectors.

After this change scalable VF hints are no longer truncated/clamped
to a shorter scalable VF, nor does it drop the 'scalable flag' from
the suggested VF to vectorize with a similar VF that is fixed.

Instead, the hint is ignored which means the vectorizer is free
to find a more suitable VF, using the CostModel to determine the
best possible VF.

Reviewed By: c-rhodes, fhahn

Differential Revision: https://reviews.llvm.org/D98509
2021-04-28 12:30:00 +01:00
Kerry McLaughlin
9cc217ab36 [LoopVectorize] Prevent multiple Phis being generated with in-order reductions
When using the -enable-strict-reductions flag where UF>1 we generate multiple
Phi nodes, though only one of these is used as an input to the vector.reduce.fadd
intrinsics. The unused Phi nodes are removed later by instcombine.

This patch changes widenPHIInstruction/fixReduction to only generate
one Phi, and adds an additional test for unrolling to strict-fadd.ll

Reviewed By: david-arm

Differential Revision: https://reviews.llvm.org/D100570
2021-04-28 11:29:01 +01:00
David Sherwood
6968520c3b Revert "[LoopVectorize] Simplify scalar cost calculation in getInstructionCost"
This reverts commit 4afeda9157cffd2daa83f8075d73f1e11ea34c81.
2021-04-27 15:46:03 +01:00
David Sherwood
4afeda9157 [LoopVectorize] Simplify scalar cost calculation in getInstructionCost
This patch simplifies the calculation of certain costs in
getInstructionCost when isScalarAfterVectorization() returns a true value.
There are a few places where we multiply a cost by a number N, i.e.

  unsigned N = isScalarAfterVectorization(I, VF) ? VF.getKnownMinValue() : 1;
  return N * TTI.getArithmeticInstrCost(...

After some investigation it seems that there are only these cases that occur
in practice:

1. VF is a scalar, in which case N = 1.
2. VF is a vector. We can only get here if: a) the instruction is a
GEP/bitcast/PHI with scalar uses, or b) this is an update to an induction
variable that remains scalar.

I have changed the code so that N is assumed to always be 1. For GEPs
the cost is always 0, since this is calculated later on as part of the
load/store cost. PHI nodes are costed separately and were never previously
multiplied by VF. For all other cases I have added an assert that none of
the users needs scalarising, which didn't fire in any unit tests.

Only one test required fixing and I believe the original cost for the scalar
add instruction to have been wrong, since only one copy remains after
vectorisation.

I have also added a new test for the case when a pointer PHI feeds directly
into a store that will be scalarised as we were previously never testing it.

Differential Revision: https://reviews.llvm.org/D99718
2021-04-27 15:26:15 +01:00
Florian Hahn
a950f66de2
[LV,LAA] Add test cases with pointer phis in loops.
Pre-commits tests for D101286.
2021-04-27 13:49:32 +01:00
David Sherwood
cf7276820c [NFC] Add scalable vectorisation tests for int/FP <> int/FP conversions
We can already vectorize loops that involve int<>int, fp<>fp, int<>fp
and fp<>int conversions, however we didn't previously have any tests
for them. This patch adds some tests for each conversion type.

Differential Revision: https://reviews.llvm.org/D99951
2021-04-26 11:01:14 +01:00
David Sherwood
a458b7855e [AArch64] Add AArch64TTIImpl::getMaskedMemoryOpCost function
When vectorising for AArch64 targets if you specify the SVE attribute
we automatically then treat masked loads and stores as legal. Also,
since we have no cost model for masked memory ops we believe it's
cheap to use the masked load/store intrinsics even for fixed width
vectors. This can lead to poor code quality as the intrinsics will
currently be scalarised in the backend. This patch adds a basic
cost model that marks fixed-width masked memory ops as significantly
more expensive than for scalable vectors.

Tests for the cost model are added here:

  Transforms/LoopVectorize/AArch64/masked-op-cost.ll

Differential Revision: https://reviews.llvm.org/D100745
2021-04-26 11:00:03 +01:00
Joe Ellis
2c551aedcf [LoopVectorize] Fix bug where predicated loads/stores were dropped
This commit fixes a bug where the loop vectoriser fails to predicate
loads/stores when interleaving for targets that support masked
loads and stores.

Code such as:

     1  void foo(int *restrict data1, int *restrict data2)
     2  {
     3    int counter = 1024;
     4    while (counter--)
     5      if (data1[counter] > data2[counter])
     6        data1[counter] = data2[counter];
     7  }

... could previously be transformed in such a way that the predicated
store implied by:

    if (data1[counter] > data2[counter])
       data1[counter] = data2[counter];

... was lost, resulting in miscompiles.

This bug was causing some tests in llvm-test-suite to fail when built
for SVE.

Differential Revision: https://reviews.llvm.org/D99569
2021-04-22 15:05:54 +00:00
Alexey Bataev
673e2f1b70 [COST][AARCH64] Improve cost of reverse shuffles for AArch64.
Introduced the cost of thre reverse shuffles for AArch64, currently just
copied the costs for PermuteSingleSrc.

Differential Revision: https://reviews.llvm.org/D100871
2021-04-20 13:47:56 -07:00
Roman Lebedev
a1d283b71e
[NFC][LoopVectorize] Autogenerate check lines in pr45259.ll
We might as well test all of the codegen here.
2021-04-20 21:29:21 +03:00
Alexey Bataev
683dc41695 Update tests checks, NFC. 2021-04-20 10:20:15 -07:00
Sander de Smalen
86729538bd [LV] Let selectVectorizationFactor reason directly on VectorizationFactor.
Rather than maintaining two separate values, a `float` for the per-lane
cost and a Width for the VF, maintain a single VectorizationFactor which
comprises the two and also removes the need for converting an integer value
to float.

This simplifies the query when asking if one VF is more profitable than
another when we want to extend this for scalable vectors (which may
require additional options to determine if e.g. a scalable VF of the
some cost, is more profitable than a fixed VF of the same cost).

The patch isn't entirely NFC because it also fixes an issue in
selectEpilogueVectorizationFactor, where the cost passed to ProfitableVFs
no longer truncates the floating-point cost from `float` to `unsigned` to
then perform the calculation on the truncated cost. It now does
a cost comparison with the correct precision.

Reviewed By: dmgreen

Differential Revision: https://reviews.llvm.org/D100121
2021-04-20 09:54:45 +01:00
Roman Lebedev
df9597cf5a
[X86][CostModel] X86TTIImpl::getShuffleCost(): subvector insertions are cheap
This is similar to the subvector extractions,
except that the 0'th subvector isn't free to insert,
because we generally don't know whether or not
the upper elements need to be preserved:
https://godbolt.org/z/rsxP5W4sW

This is needed to avoid regressions in D100684

Reviewed By: RKSimon

Differential Revision: https://reviews.llvm.org/D100698
2021-04-19 13:24:58 +03:00
Kerry McLaughlin
62ee638a87 [NFC] Add tests for scalable vectorization of loops with in-order reductions
D98435 added support for in-order reductions and included tests for fixed-width
vectorization with the -enable-strict-reductions flag.

This patch adds similar tests to verify support for scalable vectorization of loops
with in-order reductions.

Reviewed By: david-arm

Differential Revision: https://reviews.llvm.org/D100385
2021-04-19 11:15:55 +01:00
Roman Lebedev
f3953a8aba
[NFC][LoopVectorize] Autogenerate check lines in X86/gather_scatter.ll test 2021-04-18 10:26:16 +03:00
Philip Reames
ff55d01a8e [nofree] Restrict semantics to memory visible to caller
This patch clarifies the semantics of the nofree function attribute to make clear that it provides an "as if" semantic. That is, a nofree function is guaranteed not to free memory which existed before the call, but might allocate and then deallocate that same memory within the lifetime of the callee.

This is the result of the discussion on llvm-dev under the thread "Ambiguity in the nofree function attribute".

The most important part of this change is the LangRef wording. The rest is minor comment changes to emphasize the new semantics where code was accidentally consistent, and fix one place which wasn't consistent. That one place is currently narrowly used as it is primarily part of the ongoing (and not yet enabled) deref-at-point semantics work.

Differential Revision: https://reviews.llvm.org/D100141
2021-04-16 11:38:55 -07:00
Kerry McLaughlin
93f54fae9d [NFC] Remove the -instcombine flag from strict-fadd.ll
This also fixes a CHECK line in @fadd_strict_unroll which ensures the
changes made to fixReduction() to support in-order reductions with
unrolling are being tested correctly.
2021-04-15 15:10:48 +01:00
David Sherwood
ea14df695e [SVE][LoopVectorize] Fix crash in InnerLoopVectorizer::widenPHIInstruction
There were a few places in widenPHIInstruction where calculations of
offsets were failing to take the runtime calculation of VF into
account for scalable vectors. I've fixed those cases in this patch
as well as adding an assert that we should not be scalarising for
scalable vectors.

Tests are added here:

  Transforms/LoopVectorize/AArch64/sve-widen-phi.ll

Differential Revision: https://reviews.llvm.org/D99254
2021-04-15 10:51:49 +01:00
Roman Lebedev
a36bb7fd76
[InstCombine] (X | Op01C) + Op1C --> X + (Op01C + Op1C) iff the or is actually an add
https://alive2.llvm.org/ce/z/Coc5yf
2021-04-11 18:08:08 +03:00
Roman Lebedev
d1ebdbff12
[NFC][LoopVectorize] Autogenerate interleaved-accesses.ll 2021-04-11 18:08:08 +03:00
Thomas Preud'homme
623475248a [test, LoopVectorize] Fix use of var defined in CHECK-NOT
LLVM test Transforms/LoopVectorize/pr34681.ll tries to check for the
absence of a sequence of instructions with several CHECK-NOT with one of
those directives using a variable defined in another. However CHECK-NOT
are checked independently so that is using a variable defined in a
pattern that should not occur in the input.

This commit only checks for the absence of icmp ne 1 which rules out the
presence of the whole sequence and does not involve an undefined
variable.

Reviewed By: fhahn

Differential Revision: https://reviews.llvm.org/D99582
2021-04-09 10:01:57 +01:00
David Green
8675ef100f [LV] Logical and/or select costs
D99674 stopped the folding of certain select operations into and/or, due
to incorrect folding in the presence of poison. D97360 added some costs
to attempt to account for the change, but only worked at the getUserCost
level, not the getCmpSelInstrCost that the vectorizer will use directly.
This adds similar logic into the vectorizer to handle these logical
and/or selects, treating them like and/or directly.

This fixes 60% performance regressions from code like the attached test
case.

Differential Revision: https://reviews.llvm.org/D99884
2021-04-08 10:39:47 +01:00
David Green
1a4d3d0bca [LV] Add a logical and/or select cost test. NFC 2021-04-08 10:27:06 +01:00
Sander de Smalen
672f673004 [SVE] Remove checks for warnings in scalable-vector tests.
After D98856 these tests will by default break (fatal_error) if any of
the wrong interfaces are used, so there's no longer a need to have a
RUN line that checks for a warning message emitted by the compiler.
2021-04-07 15:59:32 +01:00
Kerry McLaughlin
7344f3d39a [LoopVectorize] Add strict in-order reduction support for fixed-width vectorization
Previously we could only vectorize FP reductions if fast math was enabled, as this allows us to
reorder FP operations. However, it may still be beneficial to vectorize the loop by moving
the reduction inside the vectorized loop and making sure that the scalar reduction value
be an input to the horizontal reduction, e.g:

  %phi = phi float [ 0.0, %entry ], [ %reduction, %vector_body ]
  %load = load <8 x float>
  %reduction = call float @llvm.vector.reduce.fadd.v8f32(float %phi, <8 x float> %load)

This patch adds a new flag (IsOrdered) to RecurrenceDescriptor and makes use of the changes added
by D75069 as much as possible, which already teaches the vectorizer about in-loop reductions.
For now in-order reduction support is off by default and controlled with the `-enable-strict-reductions` flag.

Reviewed By: david-arm

Differential Revision: https://reviews.llvm.org/D98435
2021-04-06 14:45:34 +01:00
Kerry McLaughlin
857b8a73da [LoopVectorize] Change the identity element for FAdd
Changes getRecurrenceIdentity to always return a neutral value of -0.0 for FAdd.

Reviewed By: dmgreen, spatel

Differential Revision: https://reviews.llvm.org/D98963
2021-04-06 12:13:43 +01:00
Sanjay Patel
7a4abc07dd [LoopVectorize] auto-generate complete checks; NFC
We can't see how much overhead/redundancy is being
created with the partial checks.

To make it smaller and easier to read, I reduced the
vectorization factor because that does not add new
information - it just duplicates things.
2021-04-01 11:55:41 -04:00
Philip Reames
e2c6621e63 [deref-at-point] restrict inference of dereferenceability based on allocsize attribute
Support deriving dereferenceability facts from allocation sites with known object sizes while correctly accounting for any possibly frees between allocation and use site. (At the moment, we're conservative and only allowing it in functions where we know we can't free.)

This is part of the work on deref-at-point semantics. I'm making the change unconditional as the miscompile in this case is way too easy to trip by accident, and the optimization was only recently added (by me).

There will be a follow up patch wiring through TLI since that should now be doable without introducing widespread miscompiles.

Differential Revision: https://reviews.llvm.org/D95815
2021-04-01 08:34:40 -07:00
David Sherwood
e3a13304fc [NFC] Add tests for scalable vectorization of loops with large stride acesses
This patch just adds tests that we can vectorize loop such as these:

  for (i = 0; i < n; i++)
    dst[i * 7] += 1;

and

  for (i = 0; i < n; i++)
    if (cond[i])
      dst[i * 7] += 1;

using scalable vectors, where we expect to use gathers and scatters in the
vectorized loop. The vector of pointers used for the gather is identical
to those used for the scatter so there should be no memory dependences.

Tests are added here:

  Transforms/LoopVectorize/AArch64/sve-large-strides.ll

Differential Revision: https://reviews.llvm.org/D99192
2021-04-01 10:25:06 +01:00
Sander de Smalen
7108b2dec1 [SVE] Fix LoopVectorizer test scalalable-call.ll
This marks FSIN and other operations to EXPAND for scalable
vectors, so that they are not assumed to be legal by the cost-model.

Depends on D97470

Reviewed By: dmgreen, paulwalker-arm

Differential Revision: https://reviews.llvm.org/D97471
2021-03-31 14:52:49 +01:00
Thomas Preud'homme
8b5b03c279 [test, LoopVectorize] Fix use of var defined in CHECK-NOT
LLVM test Transforms/LoopVectorize/X86/x86-pr39099.ll tries to check for
the absence of a sequence of instructions with several CHECK-NOT with
one of those directives using a variable defined in another. However
CHECK-NOT are checked independently so that is using a variable defined
in a pattern that should not occur in the input.

This commit only checks for the absence of a widened load which rules
out the presence of the whole sequence and does not involve an undefined
variable.

Reviewed By: fhahn

Differential Revision: https://reviews.llvm.org/D99583
2021-03-30 15:32:30 +01:00
David Sherwood
a08c7736a7 [LoopVectorize] Add support for scalable vectorization of induction variables
This patch adds support for the vectorization of induction variables when
using scalable vectors, which required the following changes:

1. Removed assert from InnerLoopVectorizer::getStepVector.
2. Modified InnerLoopVectorizer::createVectorIntOrFpInductionPHI to use
   a runtime determined value for VF and removed an assert.
3. Modified InnerLoopVectorizer::buildScalarSteps to work for scalable
   vectors. I did this by calculating the full vector value for each Part
   of the unroll factor (UF) and caching this in the VP state. This means
   that we are always able to extract an arbitrary element from the vector
   if necessary. In addition to this, I also permitted the caching of the
   individual lane values themselves for the known minimum number of elements
   in the same way we do for fixed width vectors. This is a further
   optimisation that improves the code quality since it avoids unnecessary
   extractelement operations when extracting the first lane.
4. Added an assert to InnerLoopVectorizer::widenPHIInstruction, since while
   testing some code paths I noticed this is currently broken for scalable
   vectors.

Various tests to support different cases have been added here:

  Transforms/LoopVectorize/AArch64/sve-inductions.ll

Differential Revision: https://reviews.llvm.org/D98715
2021-03-30 11:13:31 +01:00
Florian Hahn
c773d0f973
Recommit "[LV] Move runtime pointer size check to LVP::plan()."
Re-apply 25fbe803d4db, with a small update to emit the right remark
class.

Original message:
    [LV] Move runtime pointer size check to LVP::plan().

    This removes the need for the remaining doesNotMeet check and instead
    directly checks if there are too many runtime checks for vectorization
    in the planner.

    A subsequent patch will adjust the logic used to decide whether to
    vectorize with runtime to consider their cost more accurately.

    Reviewed By: lebedev.ri
2021-03-29 16:14:27 +01:00
Florian Hahn
485c8ce733
Revert "[LV] Move runtime pointer size check to LVP::plan()."
This reverts commit 25fbe803d4dbcf8ff3a3a9ca161f5b9a68353ed0.

This breaks a clang test which filters for the wrong remark type.
2021-03-29 14:41:53 +01:00
Florian Hahn
25fbe803d4
[LV] Move runtime pointer size check to LVP::plan().
This removes the need for the remaining doesNotMeet check and instead
directly checks if there are too many runtime checks for vectorization
in the planner.

A subsequent patch will adjust the logic used to decide whether to
vectorize with runtime to consider their cost more accurately.

Reviewed By: lebedev.ri

Differential Revision: https://reviews.llvm.org/D98634
2021-03-29 14:12:29 +01:00
David Sherwood
c39460cc4f Revert "[LoopVectorize] Simplify scalar cost calculation in getInstructionCost"
This reverts commit 240aa96cf25d880dde7a0db5d96918cfaa4b8891.
2021-03-26 11:36:53 +00:00
David Sherwood
240aa96cf2 [LoopVectorize] Simplify scalar cost calculation in getInstructionCost
This patch simplifies the calculation of certain costs in
getInstructionCost when isScalarAfterVectorization() returns a true value.
There are a few places where we multiply a cost by a number N, i.e.

  unsigned N = isScalarAfterVectorization(I, VF) ? VF.getKnownMinValue() : 1;
  return N * TTI.getArithmeticInstrCost(...

After some investigation it seems that there are only these cases that occur
in practice:

1. VF is a scalar, in which case N = 1.
2. VF is a vector. We can only get here if: a) the instruction is a
GEP/bitcast with scalar uses, or b) this is an update to an induction variable
that remains scalar.

I have changed the code so that N is assumed to always be 1. For GEPs
the cost is always 0, since this is calculated later on as part of the
load/store cost. For all other cases I have added an assert that none of the
users needs scalarising, which didn't fire in any unit tests.

Only one test required fixing and I believe the original cost for the scalar
add instruction to have been wrong, since only one copy remains after
vectorisation.

Differential Revision: https://reviews.llvm.org/D98512
2021-03-26 11:27:12 +00:00
Philip Reames
67e28173f1 Autogen test to account for tool output format change 2021-03-25 14:41:08 -07:00
Kerry McLaughlin
1f46499690 [SVE][LoopVectorize] Verify support for vectorizing loops with invariant loads
D95598 added a cost model for broadcast shuffle, which should enable loops
such as the following to vectorize, where the load of b[42] is invariant
and can be done using a scalar load + splat:

  for (int i=0; i<n; ++i)
    a[i] = b[i] + b[42];

This patch adds tests to verify that we can vectorize such loops.

Reviewed By: joechrisellis

Differential Revision: https://reviews.llvm.org/D98506
2021-03-25 14:10:21 +00:00
Craig Topper
512bae81cc [RISCV] Add basic cost modelling for fixed vector gather/scatter.
Reviewed By: frasercrmck

Differential Revision: https://reviews.llvm.org/D99142
2021-03-24 11:14:14 -07:00
Florian Hahn
7fb6d9f958
[LV] Add 'fast' flag to test to make sure it will be vectorized.
This makes the test more robust with respect to when LV checks if the
floating point instructions in a loop can be vectorized.
2021-03-23 15:32:23 +00:00
Florian Hahn
f759d512c8
[VPlan] Include name when printing after 93a9d2de8f4f.
The name is included when printing in DOT mode. Also print it in non-DOT
mode after 93a9d2de8f4f.

This will become more important to distinguish different plans once
VPlans are gradually refined.
2021-03-23 09:50:14 +00:00
Florian Hahn
42ec7a6f08
[VPlan] Add CHECK-LABEL to test/Transforms/LoopVectorize/vplan-printing.ll.
This patch adds CHECK-LABEL lines to
llvm/test/Transforms/LoopVectorize/vplan-printing.ll in order to make
failures slightly easier to diagnose.
2021-03-22 18:29:38 +00:00
David Green
a2e0312cda [ARM] Tone down the MVE scalarization overhead
The scalarization overhead was set deliberately high for MVE, whilst the
codegen was new. It helps protect us against the negative ramifications
of mixing scalar and vector instructions. This decreases that,
especially for floating point where the cost of extracting/inserting
lane elements can be low. For integer the cost is still fairly high due
to the cross-register-bank copy, but is no longer n^2 in the length of
the vector.

In general, this will decrease the cost of scalarizing floats and long
integer vectors. i64 increase in cost, having a high cost before and
after this patch. For floats this allows up to start doing things like
vectorizing fdiv instructions, even if they are scalarized.

Differential Revision: https://reviews.llvm.org/D98245
2021-03-19 18:30:11 +00:00
Andrei Elovikov
93a9d2de8f [VPlan] Add plain text (not DOT's digraph) dumps
I foresee two uses for this:
1) It's easier to use those in debugger.
2) Once we start implementing more VPlan-to-VPlan transformations (especially
   inner loop massaging stuff), using the vectorized LLVM IR as CHECK targets in
   LIT test would become too obscure. I can imagine that we'd want to CHECK
   against VPlan dumps after multiple transformations instead. That would be
   easier with plain text dumps than with DOT format.

Reviewed By: fhahn

Differential Revision: https://reviews.llvm.org/D96628
2021-03-19 10:50:12 -07:00
Jeroen Dobbelaere
04790d9cfb Support intrinsic overloading on unnamed types
This patch adds support for intrinsic overloading on unnamed types.

This fixes PR38117 and PR48340 and will also be needed for the Full Restrict Patches (D68484).

The main problem is that the intrinsic overloading name mangling is using 's_s' for unnamed types.
This can result in identical intrinsic mangled names for different function prototypes.

This patch changes this by adding a '.XXXXX' to the intrinsic mangled name when at least one of the types is based on an unnamed type, ensuring that we get a unique name.

Implementation details:
- The mapping is created on demand and kept in Module.
- It also checks for existing clashes and recycles potentially existing prototypes and declarations.
- Because of extra data in Module, Intrinsic::getName needs an extra Module* argument and, for speed, an optional FunctionType* argument.
- I still kept the original two-argument 'Intrinsic::getName' around which keeps the original behavior (providing the base name).
-- Main reason is that I did not want to change the LLVMIntrinsicGetName version, as I don't know how acceptable such a change is
-- The current situation already has a limitation. So that should not get worse with this patch.
- Intrinsic::getDeclaration and the verifier are now using the new version.

Other notes:
- As far as I see, this should not suffer from stability issues. The count is only added for prototypes depending on at least one anonymous struct
- The initial count starts from 0 for each intrinsic mangled name.
- In case of name clashes, existing prototypes are remembered and reused when that makes sense.

Reviewed By: fhahn

Differential Revision: https://reviews.llvm.org/D91250
2021-03-19 14:34:25 +01:00
Mehdi Amini
3614df3537 Revert "[VPlan] Add plain text (not DOT's digraph) dumps"
This reverts commit 6b053c9867a3ede32e51cef3ed972d5ce5b38bc0.
The build is broken:

ld.lld: error: undefined symbol: llvm::VPlan::printDOT(llvm::raw_ostream&) const
>>> referenced by LoopVectorize.cpp
>>>               LoopVectorize.cpp.o:(llvm::LoopVectorizationPlanner::printPlans(llvm::raw_ostream&)) in archive lib/libLLVMVectorize.a
2021-03-18 19:20:39 +00:00
Andrei Elovikov
6b053c9867 [VPlan] Add plain text (not DOT's digraph) dumps
I foresee two uses for this:
1) It's easier to use those in debugger.
2) Once we start implementing more VPlan-to-VPlan transformations (especially
   inner loop massaging stuff), using the vectorized LLVM IR as CHECK targets in
   LIT test would become too obscure. I can imagine that we'd want to CHECK
   against VPlan dumps after multiple transformations instead. That would be
   easier with plain text dumps than with DOT format.

Reviewed By: fhahn

Differential Revision: https://reviews.llvm.org/D96628
2021-03-18 11:33:39 -07:00