390 Commits

Author SHA1 Message Date
Duncan P. N. Exon Smith
22a52dfddc TransformUtils: Fix metadata handling in CloneModule (and improve CloneFunctionInto)
This commit fixes how metadata is handled in CloneModule to be sound,
and improves how it's handled in CloneFunctionInto (although the latter
is still awkward when called within a module).

Ruiling Song pointed out in PR48841 that CloneModule was changed to
unsoundly use the RF_ReuseAndMutateDistinctMDs flag (renamed in
fa35c1f80f0ea080a7cbc581416929b0a654f25c for clarity). This flag papered
over a crash caused by other various changes made to CloneFunctionInto
over the past few years that made it unsound to use cloning between
different modules.

(This commit partially addresses PR48841, fixing the repro from
preprocessed source but not textual IR. MDNodeMapper::mapDistinctNode
became unsound in df763188c9a1ecb1e7e5c4d4ea53a99fbb755903 and this
commit does not address that regression.)

RF_ReuseAndMutateDistinctMDs is designed for the IRMover to use,
avoiding unnecessary clones of all referenced metadata when linking
between modules (with IRMover, the source module is discarded after
linking). It never makes sense to use when you're not discarding the
source. This commit drops its incorrect use in CloneModule.

Sadly, the right thing to do with metadata when cloning a function is
complicated, and this patch doesn't totally fix it.

The first problem is that there are two different types of referenceable
metadata and it's not obvious what to with one of them when remapping.

- `!0 = !{!1}` is metadata's version of a constant. Programatically it's
  called "uniqued" (probably a better term would be "constant") because,
  like `ConstantArray`, it's stored in uniquing tables. Once it's
  constructed, it's illegal to change its arguments.
- `!0 = distinct !{!1}` is a bit closer to a global variable. It's legal
  to change the operands after construction.

What should be done with distinct metadata when cloning functions within
the same module?

- Should new, cloned nodes be created?
- Should all references point to the same, old nodes?

The answer depends on whether that metadata is effectively owned by a
function.

And that's the second problem. Referenceable metadata's ownership model
is not clear or explicit. Technically, it's all stored on an
LLVMContext. However, any metadata that is `distinct`, that transitively
references a `distinct` node, or that transitively references a
GlobalValue is specific to a Module and is effectively owned by it. More
specifically, some metadata is effectively owned by a specific Function
within a module.

Effectively function-local metadata was introduced somewhere around
c10d0e5ccd12f049bddb24dcf8bbb7fbbc6c68f2, which made it illegal for two
functions to share a DISubprogram attachment.

When cloning a function within a module, you need to clone the
function-local debug info and suppress cloning of global debug info (the
status quo suppresses cloning some global debug info but not all). When
cloning a function to a new/different module, you need to clone all of
the debug info.

Here's what I think we should do (eventually? soon? not this patch
though):
- Distinguish explicitly (somehow) between pure constant metadata owned
  by the LLVMContext, global metadata owned by the Module, and local
  metadata owned by a GlobalValue (such as a function).
- Update CloneFunctionInto to trigger cloning of all "local" metadata
  (only), perhaps by adding a bit to RemapFlag. Alternatively, split
  out a separate function CloneFunctionMetadataInto to prime the
  metadata map that callers are updated to call ahead of time as
  appropriate.

Here's the somewhat more isolated fix in this patch:
- Converted the `ModuleLevelChanges` parameter to `CloneFunctionInto` to
  an enum called `CloneFunctionChangeType` that is one of
  LocalChangesOnly, GlobalChanges, DifferentModule, and ClonedModule.
- The code maintaining the "functions uniquely own subprograms"
  invariant is now only active in the first two cases, where a function
  is being cloned within a single module. That's necessary because this
  code inhibits cloning of (some) "global" metadata that's effectively
  owned by the module.
- The code maintaining the "all compile units must be explicitly
  referenced by !llvm.dbg.cu" invariant is now only active in the
  DifferentModule case, where a function is being cloned into a new
  module in isolation.
- CoroSplit.cpp's call to CloneFunctionInto in CoroCloner::create
  uses LocalChangeOnly, since fa635d730f74f3285b77cc1537f1692184b8bf5b
  only set `ModuleLevelChanges` to trigger cloning of local metadata.
- CloneModule drops its unsound use of RF_ReuseAndMutateDistinctMDs
  and special handling of !llvm.dbg.cu.
- Fixed some outdated header docs and left a couple of FIXMEs.

Differential Revision: https://reviews.llvm.org/D96531
2021-02-15 11:56:00 -08:00
Florian Hahn
85fe5c9345
[VPlan] Make VPRecipeBase inherit from VPUser directly (NFC).
The individual recipes have been updated to manage their operands using
VPUser a while back. Now that the transition is done, we can instead
make VPRecipeBase a VPUser and get rid of the toVPUser helper.
2021-02-12 13:06:58 +00:00
Duncan P. N. Exon Smith
fa35c1f80f ValueMapper: Rename RF_MoveDistinctMDs => RF_ReuseAndMutateDistinctMDs, NFC
Rename the `RF_MoveDistinctMDs` flag passed into `MapValue` and
`MapMetadata` to `RF_ReuseAndMutateDistinctMDs` in order to more
precisely describe its effect and clarify the header documentation.

Found this while helping to investigate PR48841, which pointed out an
unsound use of the flag in `CloneModule()`. For now I've just added a
FIXME there, but I'm hopeful that the new (more precise) name will
prevent other similar errors.
2021-02-10 16:53:21 -08:00
Sanjay Patel
ab93c18c12 [LoopVectorize] use IR fast-math-flags exclusively (not FP function attributes)
I am trying to untangle the fast-math-flags propagation logic
in the vectorizers (see a6f022127 for SLP).

The loop vectorizer has a mix of checking FP function attributes,
IR-level FMF, and just wrong assumptions.

I am trying to avoid regressions while fixing this, and I think
the IR-level logic is good enough for that, but it's hard to say
for sure. This would be the 1st step in the clean-up.

The existing test that I changed to include 'fast' actually shows
a miscompile: the function only had the equivalent of nnan, but we
created new instructions that had fast (all FMF set). This is
similar to the example in https://llvm.org/PR35538

Differential Revision: https://reviews.llvm.org/D95452
2021-01-27 14:17:11 -05:00
Florian Hahn
eb0371e403 [VPlan] Unify value/recipe printing after VPDef transition.
This patch unifies the way recipes and VPValues are printed after the
transition to VPDef.

VPSlotTracker has been updated to iterate over all recipes and all
their defined values to number those. There is no need to number
values in Value2VPValue.

It also updates a few places that only used slot numbers for
VPInstruction. All recipes now can produce numbered VPValues.
2021-01-11 14:42:46 +00:00
David Green
72fb5ba079 [LV] Don't sink into replication regions
The new test case here contains a first order recurrences and an
instruction that is replicated. The first order recurrence forces an
instruction to be sunk _into_, as opposed to after the replication
region. That causes several things to go wrong including registering
vector instructions multiple times and failing to create dominance
relations correctly.

Instead we should be sinking to after the replication region, which is
what this patch makes sure happens.

Differential Revision: https://reviews.llvm.org/D93629
2021-01-08 09:50:10 +00:00
Roman Lebedev
5fe0798dee
[Utils] LocalTest: fix SimplifyCFGWithNullAC test to work with -simplifycfg-require-and-preserve-domtree=1 2021-01-02 01:01:18 +03:00
Ta-Wei Tu
d7a6f3a105 [LoopNest] Extend LPMUpdater and adaptor to handle loop-nest passes
This is a follow-up patch of D87045.

The patch implements "loop-nest mode" for `LPMUpdater` and `FunctionToLoopPassAdaptor` in which only top-level loops are operated.

`createFunctionToLoopPassAdaptor` decides whether the returned adaptor is in loop-nest mode or not based on the given pass. If the pass is a loop-nest pass or the pass is a `LoopPassManager` which contains only loop-nest passes, the loop-nest version of adaptor is returned; otherwise, the normal (loop) version of adaptor is returned.

Reviewed By: Whitney

Differential Revision: https://reviews.llvm.org/D87531
2020-12-22 08:47:38 +08:00
Florian Hahn
f250892373
[VPlan] Make VPRecipeBase inherit from VPDef.
This patch makes VPRecipeBase a direct subclass of VPDef, moving the
SubclassID to VPDef.

Reviewed By: gilr

Differential Revision: https://reviews.llvm.org/D90564
2020-12-21 13:34:00 +00:00
Florian Hahn
cd608dc8d3
[VPlan] Use VPDef for VPInterleaveRecipe.
This patch turns updates VPInterleaveRecipe to manage the values it defines
using VPDef. The VPValue is used  during VPlan construction and
codegeneration instead of the plain IR reference where possible.

Reviewed By: gilr

Differential Revision: https://reviews.llvm.org/D90562
2020-12-21 10:56:53 +00:00
Whitney Tsang
2a814cd9e1 Ensure SplitEdge to return the new block between the two given blocks
This PR implements the function splitBasicBlockBefore to address an
issue
that occurred during SplitEdge(BB, Succ, ...), inside splitBlockBefore.
The issue occurs in SplitEdge when the Succ has a single predecessor
and the edge between the BB and Succ is not critical. This produces
the result ‘BB->Succ->New’. The new function splitBasicBlockBefore
was added to splitBlockBefore to handle the issue and now produces
the correct result ‘BB->New->Succ’.

Below is an example of splitting the block bb1 at its first instruction.

/// Original IR
bb0:
	br bb1
bb1:
        %0 = mul i32 1, 2
	br bb2
bb2:
/// IR after splitEdge(bb0, bb1) using splitBasicBlock
bb0:
	br bb1
bb1:
	br bb1.split
bb1.split:
        %0 = mul i32 1, 2
	br bb2
bb2:
/// IR after splitEdge(bb0, bb1) using splitBasicBlockBefore
bb0:
	br bb1.split
bb1.split
	br bb1
bb1:
        %0 = mul i32 1, 2
	br bb2
bb2:

Differential Revision: https://reviews.llvm.org/D92200
2020-12-18 17:37:17 +00:00
Bangtian Liu
511cfe9441 Revert "Ensure SplitEdge to return the new block between the two given blocks"
This reverts commit d20e0c3444ad9ada550d9d6d1d56fd72948ae444.
2020-12-17 21:00:37 +00:00
Bangtian Liu
d20e0c3444 Ensure SplitEdge to return the new block between the two given blocks
This PR implements the function splitBasicBlockBefore to address an
issue
that occurred during SplitEdge(BB, Succ, ...), inside splitBlockBefore.
The issue occurs in SplitEdge when the Succ has a single predecessor
and the edge between the BB and Succ is not critical. This produces
the result ‘BB->Succ->New’. The new function splitBasicBlockBefore
was added to splitBlockBefore to handle the issue and now produces
the correct result ‘BB->New->Succ’.

Below is an example of splitting the block bb1 at its first instruction.

/// Original IR
bb0:
	br bb1
bb1:
        %0 = mul i32 1, 2
	br bb2
bb2:
/// IR after splitEdge(bb0, bb1) using splitBasicBlock
bb0:
	br bb1
bb1:
	br bb1.split
bb1.split:
        %0 = mul i32 1, 2
	br bb2
bb2:
/// IR after splitEdge(bb0, bb1) using splitBasicBlockBefore
bb0:
	br bb1.split
bb1.split
	br bb1
bb1:
        %0 = mul i32 1, 2
	br bb2
bb2:

Differential Revision: https://reviews.llvm.org/D92200
2020-12-17 16:00:15 +00:00
Roman Lebedev
49dac4aca0
[SimplifyCFG] MergeBlockIntoPredecessor() already knows how to preserve DomTree
... so just ensure that we pass DomTreeUpdater it into it.

Fixes DomTree preservation for a large number of tests,
all of which are marked as such so that they do not regress.
2020-12-17 01:03:49 +03:00
Whitney Tsang
fa3693ad0b [LoopNest] Handle loop-nest passes in LoopPassManager
Per http://llvm.org/OpenProjects.html#llvm_loopnest, the goal of this
patch (and other following patches) is to create facilities that allow
implementing loop nest passes that run on top-level loop nests for the
New Pass Manager.

This patch extends the functionality of LoopPassManager to handle
loop-nest passes by specializing the definition of LoopPassManager that
accepts both kinds of passes in addPass.

Only loop passes are executed if L is not a top-level one, and both
kinds of passes are executed if L is top-level. Currently, loop nest
passes should have the following run method:

PreservedAnalyses run(LoopNest &, LoopAnalysisManager &,
LoopStandardAnalysisResults &, LPMUpdater &);

Reviewed By: Whitney, ychen
Differential Revision: https://reviews.llvm.org/D87045
2020-12-16 17:07:14 +00:00
Bangtian Liu
c10757200d Revert "Ensure SplitEdge to return the new block between the two given blocks"
This reverts commit cf638d793c489632bbcf0ee0fbf9d0f8c76e1f48.
2020-12-16 11:52:30 +00:00
Bangtian Liu
cf638d793c Ensure SplitEdge to return the new block between the two given blocks
This PR implements the function splitBasicBlockBefore to address an
issue
that occurred during SplitEdge(BB, Succ, ...), inside splitBlockBefore.
The issue occurs in SplitEdge when the Succ has a single predecessor
and the edge between the BB and Succ is not critical. This produces
the result ‘BB->Succ->New’. The new function splitBasicBlockBefore
was added to splitBlockBefore to handle the issue and now produces
the correct result ‘BB->New->Succ’.

Below is an example of splitting the block bb1 at its first instruction.

/// Original IR
bb0:
	br bb1
bb1:
        %0 = mul i32 1, 2
	br bb2
bb2:
/// IR after splitEdge(bb0, bb1) using splitBasicBlock
bb0:
	br bb1
bb1:
	br bb1.split
bb1.split:
        %0 = mul i32 1, 2
	br bb2
bb2:
/// IR after splitEdge(bb0, bb1) using splitBasicBlockBefore
bb0:
	br bb1.split
bb1.split
	br bb1
bb1:
        %0 = mul i32 1, 2
	br bb2
bb2:

Differential Revision: https://reviews.llvm.org/D92200
2020-12-15 23:32:29 +00:00
Fangrui Song
8c4e55762d [docs][unittest][Go][StackProtector] Migrate deprecated DebugInfo::get to DILocation::get 2020-12-15 14:17:04 -08:00
dfukalov
2ce38b3f03 [NFC] Reduce include files dependency.
1. Removed #include "...AliasAnalysis.h" in other headers and modules.
2. Cleaned up includes in AliasAnalysis.h.

Reviewed By: RKSimon

Differential Revision: https://reviews.llvm.org/D92489
2020-12-03 18:25:05 +03:00
Florian Hahn
a813090072
[VPlan] Manage stored values of interleave groups using VPUser (NFC)
Interleave groups also depend on the values they store. Manage the
stored values as VPUser operands. This is currently a NFC, but is
required to allow VPlan transforms and to manage generated vector values
exclusively in VPTransformState.
2020-11-29 17:24:36 +00:00
Florian Hahn
ad5b83ddcf
[VPlan] Add VPReductionSC to VPUser::classof, unify VPValue IDs.
This is a follow-up to 00a66011366c7b037d6680e6015524a41b761c34 to make
isa<VPReductionRecipe> work and unifies the VPValue ID names, by making
sure they all consistently start with VPV*.
2020-11-25 11:08:25 +00:00
Florian Hahn
52f3714dae [VPlan] Add VPDef class.
This patch introduces a new VPDef class, which can be used to
manage VPValues defined by recipes/VPInstructions.

The idea here is to mirror VPUser for values defined by a recipe. A
VPDef can produce either zero (e.g. a store recipe), one (most recipes)
or multiple (VPInterleaveRecipe) result VPValues.

To traverse the def-use chain from a VPDef to its users, one has to
traverse the users of all values defined by a VPDef.

VPValues now contain a pointer to their corresponding VPDef, if one
exists. To traverse the def-use chain upwards from a VPValue, we first
need to check if the VPValue is defined by a VPDef. If it does not have
a VPDef, this means we have a VPValue that is not directly defined
iniside the plan and we are done.

If we have a VPDef, it is defined inside the region by a recipe, which
is a VPUser, and the upwards def-use chain traversal continues by
traversing all its operands.

Note that we need to add an additional field to to VPVAlue to link them
to their defs. The space increase is going to be offset by being able to
remove the SubclassID field in future patches.

Reviewed By: Ayal

Differential Revision: https://reviews.llvm.org/D90558
2020-11-17 16:18:11 +00:00
Giorgis Georgakoudis
700d2417d8 [CodeExtractor] Replace uses of extracted bitcasts in out-of-region lifetime markers
CodeExtractor handles bitcasts in the extracted region that have
lifetime markers users in the outer region as outputs. That
creates unnecessary alloca/reload instructions and extra lifetime
markers. The patch identifies those cases, and replaces uses in
out-of-region lifetime markers with new bitcasts in the outer region.

**Example**
```
define void @foo() {
entry:
  %0 = alloca i32
  br label %extract

extract:
  %1 = bitcast i32* %0 to i8*
  call void @llvm.lifetime.start.p0i8(i64 4, i8* %1)
  call void @use(i32* %0)
  br label %exit

exit:
  call void @use(i32* %0)
  call void @llvm.lifetime.end.p0i8(i64 4, i8* %1)
  ret void
}
```

**Current extraction**
```
define void @foo() {
entry:
  %.loc = alloca i8*, align 8
  %0 = alloca i32, align 4
  br label %codeRepl

codeRepl:                                         ; preds = %entry
  %lt.cast = bitcast i8** %.loc to i8*
  call void @llvm.lifetime.start.p0i8(i64 -1, i8* %lt.cast)
  %lt.cast1 = bitcast i32* %0 to i8*
  call void @llvm.lifetime.start.p0i8(i64 -1, i8* %lt.cast1)
  call void @foo.extract(i32* %0, i8** %.loc)
  %.reload = load i8*, i8** %.loc, align 8
  call void @llvm.lifetime.end.p0i8(i64 -1, i8* %lt.cast)
  br label %exit

exit:                                             ; preds = %codeRepl
  call void @use(i32* %0)
  call void @llvm.lifetime.end.p0i8(i64 4, i8* %.reload)
  ret void
}

define internal void @foo.extract(i32* %0, i8** %.out) {
newFuncRoot:
  br label %extract

exit.exitStub:                                    ; preds = %extract
  ret void

extract:                                          ; preds = %newFuncRoot
  %1 = bitcast i32* %0 to i8*
  store i8* %1, i8** %.out, align 8
  call void @use(i32* %0)
  br label %exit.exitStub
}
```

**Extraction with patch**
```
define void @foo() {
entry:
  %0 = alloca i32, align 4
  br label %codeRepl

codeRepl:                                         ; preds = %entry
  %lt.cast1 = bitcast i32* %0 to i8*
  call void @llvm.lifetime.start.p0i8(i64 -1, i8* %lt.cast1)
  call void @foo.extract(i32* %0)
  br label %exit

exit:                                             ; preds = %codeRepl
  call void @use(i32* %0)
  %lt.cast = bitcast i32* %0 to i8*
  call void @llvm.lifetime.end.p0i8(i64 4, i8* %lt.cast)
  ret void
}

define internal void @foo.extract(i32* %0) {
newFuncRoot:
  br label %extract

exit.exitStub:                                    ; preds = %extract
  ret void

extract:                                          ; preds = %newFuncRoot
  %1 = bitcast i32* %0 to i8*
  call void @use(i32* %0)
  br label %exit.exitStub
}
```

Reviewed By: vsk

Differential Revision: https://reviews.llvm.org/D90689
2020-11-05 17:01:08 -08:00
Florian Hahn
348d85a6c7 [VPlan] Clean up uses/operands on VPBB deletion.
Update the code responsible for deleting VPBBs and recipes to properly
update users and release operands.

This is another preparation for D84680 & following patches towards
enabling modeling def-use chains in VPlan.
2020-10-05 14:43:52 +01:00
Florian Hahn
357bbaab66 [VPlan] Add VPRecipeBase::toVPUser helper (NFC).
This adds a helper to convert a VPRecipeBase pointer to a VPUser, for
recipes that inherit from VPUser. Once VPRecipeBase directly inherits
from VPUser this helper can be removed.
2020-10-04 19:43:27 +01:00
Florian Hahn
f5fe7abe8a [VPlan] Account for removed users in replaceAllUsesWith.
Make sure we do not iterate using an invalid iterator.

Another small fix/step towards traversing the def-use chains in VPlan.
2020-10-04 18:18:58 +01:00
Florian Hahn
82dcd383c4 [VPlan] Properly update users when updating operands.
When updating operands of a VPUser, we also have to adjust the list of
users for the new and old VPValues. This is required once we start
transitioning recipes to become VPValues.
2020-10-03 20:54:58 +01:00
Florian Hahn
d856365470 [VPlan] Change recipes to inherit from VPUser instead of a member var.
Now that VPUser is not inheriting from VPValue, we can take the next
step and turn the recipes that already manage their operands via VPUser
into VPUsers directly. This is another small step towards traversing
def-use chains in VPlan.

This is NFC with respect to the generated code, but makes the interface
more powerful.
2020-09-30 14:39:00 +01:00
Michael Liao
d4e3e1e548 Fix build due to renaming in LoopInfo. 2020-09-22 17:33:38 -04:00
Florian Hahn
1d8f2e5292 [SCEVExpander] Support expanding nonintegral pointers with constant base.
Currently SCEVExpander creates inttoptr for non-integral pointers if the
base is a null constant for example. This results in invalid IR.

This patch changes InsertNoopCastOfTo to emit a GEP & bitcast to convert
to a non-integral pointer. First, a GEP of i8* null is generated and the
integral value is used as index. The GEP is then bitcasted to the target
type.

This was exposed by D71539.

Reviewed By: efriedma

Differential Revision: https://reviews.llvm.org/D87827
2020-09-19 17:19:53 +01:00
Wenlei He
2ea4c2c598 [BFI] Make BFI information available through loop passes inside LoopStandardAnalysisResults
~~D65060 uncovered that trying to use BFI in loop passes can lead to non-deterministic behavior when blocks are re-used while retaining old BFI data.~~

~~To make sure BFI is preserved through loop passes a Value Handle (VH) callback is registered on blocks themselves. When a block is freed it now also wipes out the accompanying BFI entry such that stale BFI data can no longer persist resolving the determinism issue. ~~

~~An optimistic approach would be to incrementally update BFI information throughout the loop passes rather than only invalidating them on removed blocks. The issues with that are:~~
~~1. It is not clear how BFI information should be incrementally updated: If a block is duplicated does its BFI information come with? How about if it's split/modified/moved around? ~~
~~2. Assuming we can address these problems the implementation here will be a massive undertaking. ~~

~~There's a known need of BFI in LICM analysis which requires correct but not incrementally updated BFI data. A follow-up change can register BFI in all loop passes so this preserved but potentially lossy data is available to any loop pass that wants it.~~

See: D75341 for an identical implementation of preserving BFI via VH callbacks. The previous statements do still apply but this change no longer has to be in this diff because it's already upstream 😄 .

This diff also moves BFI to be a part of LoopStandardAnalysisResults since the previous method using getCachedResults now (correctly!) statically asserts (D72893) that this data isn't static through the loop passes.

Testing
Ninja check

Reviewed By: asbirlea, nikic

Differential Revision: https://reviews.llvm.org/D86156
2020-09-15 16:16:24 -07:00
Amy Huang
5e3fd471ac [Cloning] Fix to cloning DISubprograms.
When trying to enable -debug-info-kind=constructor there was an assert
that occurs during debug info cloning ("mismatched subprogram between
llvm.dbg.value variable and !dbg attachment").
It appears that during llvm::CloneFunctionInto, a DISubprogram could be
duplicated when MapMetadata is called, and then added to the MD map again
when DIFinder gets a list of subprograms. This results in two different
versions of the DISubprogram.

This patch switches the order so that the DIFinder subprograms are
added before MapMetadata is called.

Fixes https://bugs.llvm.org/show_bug.cgi?id=46784

Differential Revision: https://reviews.llvm.org/D86185
2020-08-21 11:54:56 -07:00
Simon Pilgrim
6316b0023e Attributor.h - remove unnecessary includes. NFCI.
Fix implicit cpp include dependencies.
2020-07-30 15:26:41 +01:00
Florian Hahn
f75564ad4e Reland "[SCEVExpander] Add option to preserve LCSSA directly."
This reverts the revert commit dc2867576886247cbe351e7c63618c09ab6af808.

It includes a fix for Polly, which uses SCEVExpander on IR that is not
in LCSSA form. Set PreserveLCSSA = false in that case, to ensure we do
not introduce LCSSA phis where there were none before.
2020-07-29 20:41:53 +01:00
Florian Hahn
dc28675768 Revert "[SCEVExpander] Add option to preserve LCSSA directly."
This reverts commit 99166fd4fb422351f131fb1265cb85d5f6c5b8da, because it
breaks the polly builders.

polly/test/Isl/CodeGen/invariant_load_escaping_second_scop.ll fails
because a apparently unnecessary LCSSA phi node is introduced.

Make the bots green again, while I take a closer look.
2020-07-29 19:19:04 +01:00
Florian Hahn
99166fd4fb [SCEVExpander] Add option to preserve LCSSA directly.
This patch teaches SCEVExpander to directly preserve LCSSA.

As it is currently, SCEV does not look through PHI nodes in loops,
as it might break LCSSA form. Once SCEVExpander can preserve
LCSSA form, it should be safe for SCEV to look through PHIs.

To preserve LCSSA form, this patch uses formLCSSAForInstructions
on operands of newly created instructions, if the definition is inside
a different loop than the new instruction.

The final value we return from expandCodeFor may also need LCSSA
phis, depending on the insert point. As no user for it exists there yet,
create a temporary instruction at the insert point, which can be passed
to formLCSSAForInstructions. This temporary instruction is removed
after LCSSA construction.

Reviewed By: mkazantsev

Differential Revision: https://reviews.llvm.org/D71538
2020-07-29 15:07:37 +01:00
Luofan Chen
a7044edde7 [Attributor] Fix qualifier warning of the unittest
Reviewed By: jdoerfert

Differential Revision: https://reviews.llvm.org/D84532
2020-07-27 22:28:39 +08:00
Simon Pilgrim
0128b9505c Revert rG5dd566b7c7b78bd- "PassManager.h - remove unnecessary Function.h/Module.h includes. NFCI."
This reverts commit 5dd566b7c7b78bd385418c72d63c79895be9ae97.

Causing some buildbot failures that I'm not seeing on MSVC builds.
2020-07-24 13:02:33 +01:00
Simon Pilgrim
5dd566b7c7 PassManager.h - remove unnecessary Function.h/Module.h includes. NFCI.
PassManager.h is one of the top headers in the ClangBuildAnalyzer frontend worst offenders list.

This exposes a large number of implicit dependencies on various forward declarations/includes in other headers that need addressing.
2020-07-24 12:40:50 +01:00
SharmaRithik
167cac3100 [CodeMoverUtils] Add more data dependency related test case
Summary: This patch adds more test case focusing on data dependency.
Authored By: RithikSharma
Reviewer: Whitney, bmahjour, etiotto
Reviewed By: Whitney
Subscribers: llvm-commits
Tag: LLVM
Differential Revision: https://reviews.llvm.org/D83543
2020-07-22 20:16:07 +05:30
Logan Smith
31eb83496f [llvm][NFC] Add missing 'override's in unittests/ 2020-07-17 17:35:59 -07:00
Alex Bradbury
5282a6186c [Attributor] Fix build of unittest with DBUILD_SHARED_LIBS=True
The dependencies in llvm/unittests/Transforms/IPO/CMakeLists.txt
introduced in revision 0750757e were incomplete, leading to link errors
for a DBUILD_SHARED_LIBS=True build.
2020-07-15 05:05:31 +01:00
Luofan Chen
0750757e80 [Attributor] Unittest for Attributor
Summary: This patch introduces basic unittest interface for the Attributor and a simple test case for casting.

Reviewers: jdoerfert, sstefan1, uenoku, homerdin, baziotis

Reviewed By: jdoerfert

Subscribers: mgorny, uenoku, kuter, okura, llvm-commits

Tags: #llvm

Differential Revision: https://reviews.llvm.org/D83754
2020-07-15 10:12:39 +08:00
SharmaRithik
082e395230 [CodeMoverUtils] Make specific analysis dependent checks optional
Summary: This patch makes code motion checks optional which are dependent on
specific analysis example, dominator tree, post dominator tree and dependence
info. The aim is to make the adoption of CodeMoverUtils easier for clients that
don't use analysis which were strictly required by CodeMoverUtils. This will
also help in diversifying code motion checks using other analysis example MSSA.
Authored By: RithikSharma
Reviewer: Whitney, bmahjour, etiotto
Reviewed By: Whitney
Subscribers: Prazek, hiraditya, george.burgess.iv, asbirlea, llvm-commits
Tag: LLVM
Differential Revision: https://reviews.llvm.org/D82566
2020-07-07 20:11:07 +05:30
Simon Pilgrim
c18b753686 LoopUtils.h - reduce AliasAnalysis.h include to forward declarations. NFC.
Fix implicit include dependencies in source files and replace legacy AliasAnalysis typedef with AAResults where necessary.
2020-06-24 17:58:38 +01:00
Simon Pilgrim
457db4036a Cloning.h - reduce AliasAnalysis.h include to forward declarations. NFC.
Fix implicit include dependencies in source files.
2020-06-24 15:48:10 +01:00
Arthur Eubanks
d335c1317b Fix dynamic alloca detection in CloneBasicBlock
Summary:
Simply check AI->isStaticAlloca instead of reimplementing checks for
static/dynamic allocas.

Reviewers: efriedma

Subscribers: hiraditya, llvm-commits

Tags: #llvm

Differential Revision: https://reviews.llvm.org/D82328
2020-06-22 15:06:28 -07:00
Simon Pilgrim
a5f1f9c9b8 ScalarEvolution.h - reduce LoopInfo.h include to forward declarations. NFC.
Move ScalarEvolution::forgetLoopDispositions implementation to ScalarEvolution.cpp to remove the dependency.

Add implicit header dependency to source files where necessary.
2020-06-17 15:48:23 +01:00
Simon Pilgrim
3642d38823 DependenceAnalysis.h - reduce AliasAnalysis.h include to forward declaration. NFC.
This requires the replacement of legacy class AliasAnalysis usages with AAResults (which it typedefs to anyhow)
2020-06-07 12:47:37 +01:00
Simon Pilgrim
5006e551d3 LoopAnalysisManager.h - reduce includes to forward declarations. NFC.
Move implicit include dependencies down to header/source files.
2020-06-06 14:06:46 +01:00