Instead of setting the successor to the exit using CFG.ExitBB, set it to
nullptr initially. The successor to the exit block is later set either
through createEmptyBasicBlock or after VPlan execution (because at the
moment, no block is created by VPlan for the exit block, the existing
one is reused).
This also enables BranchOnCond to be used as terminator for the exiting
block of the topmost vector region.
Depends on D126618.
Reviewed By: Ayal
Differential Revision: https://reviews.llvm.org/D126679
Some cl::ZeroOrMore were added to avoid the `may only occur zero or one times!`
error. More were added due to cargo cult. Since the error has been removed,
cl::ZeroOrMore is unneeded.
Also remove cl::init(false) while touching the lines.
Improved/fixed cost modeling for shuffles by providing masks, improved
cost model for non-identity insertelements.
Differential Revision: https://reviews.llvm.org/D115462
Async context frames are allocated with a maximum alignment. If a type
requests an alignment bigger than that dynamically align the address
in the frame.
Differential Revision: https://reviews.llvm.org/D126715
This patch removes CondBit and Predicate from VPBasicBlock. To do so,
the patch introduces a new branch-on-cond VPInstruction opcode to model
a branch on a condition explicitly.
This addresses a long-standing TODO/FIXME that blocks shouldn't be users
of VPValues. Those extra users can cause issues for VPValue-based
analyses that don't expect blocks. Addressing this fixme should allow us
to re-introduce 266ea446ab.
The generic branch opcode can also be used in follow-up patches.
Depends on D123005.
Reviewed By: Ayal
Differential Revision: https://reviews.llvm.org/D126618
This patch proposed to use a new cost model for loop interchange, which
is obtained from loop cache analysis.
Given a loopnest, what loop cache analysis returns is a vector of loops
[loop0, loop1, loop2, ...] where loop0 should be replaced as the outermost
loop, loop1 should be placed one more level inside, and loop2 one more level
inside, etc. What loop cache analysis does is not only more comprehensive than
the current cost model, it is also a "one-shot" query which means that we only
need to query it once during the entire loop interchange pass, which is better
than the current cost model where we query it every time we check whether it is
profitable to interchange two loops. Thus complexity is reduced, especially after
D120386 where we do more interchanges to get the globally optimal loop access pattern.
Updates made to test cases are mostly minor changes and some corrections.
Test coverage for loop interchange is not reduced.
Currently we did not completely remove the legacy cost model, but keep it as
fall-back in case the new cost model did not run successfully. This is because
currently we have some limitations in delinearization, which sometimes makes
loop cache analysis bail out. The longer term goal is to enhance delinearization
and eventually remove the legacy cost model compeletely.
Reviewed By: bmahjour, #loopoptwg
Differential Revision: https://reviews.llvm.org/D124926
We could go either way on this and several similar matches.
Just matching as a binop is possibly slightly more efficient;
we don't need to re-confirm the opcode of the instruction.
Improved/fixed cost modeling for shuffles by providing masks, improved
cost model for non-identity insertelements.
Differential Revision: https://reviews.llvm.org/D115462
This patch introduces the abstract base class InlinePriority to serve as
the comparison function for the priority queue. A derived class, such
as SizePriority, may choose to cache the priorities for different
functions for performance reasons.
This design shields the type used for the priority away from classes
outside InlinePriority and classes derived from it. In turn,
PriorityInlineOrder no longer needs to be a template class.
Reviewed By: kazu
Differential Revision: https://reviews.llvm.org/D126300
This patch introduces the abstract base class InlinePriority to serve as
the comparison function for the priority queue. A derived class, such
as SizePriority, may choose to cache the priorities for different
functions for performance reasons.
This design shields the type used for the priority away from classes
outside InlinePriority and classes derived from it. In turn,
PriorityInlineOrder no longer needs to be a template class.
Reviewed By: kazu
Differential Revision: https://reviews.llvm.org/D126300
This patch does not effect any behavior of the current code.
The codebase implicitly implies that `Cost::RateFormula` is only called
when the `Cost` is not in losing status, or else there may be possible
to trigger the assertion of `Cost::isValid`.
The intention here is to prevent mis-use where future development
allow `Cost` that is already loser to call `Cost::RateFormula` - Early
exit when `Cost` is already losing.
Reviewed By: Meinersbur, #loopoptwg
Differential Revision: https://reviews.llvm.org/D125670
Recently the terminology used has been changed from Exit->Exiting in
line with common LLVM loop terminology. Update a remaining use of the
old terminology.
Improved/fixed cost modeling for shuffles by providing masks, improved
cost model for non-identity insertelements.
Differential Revision: https://reviews.llvm.org/D115462
Extractelement instructions may come from different basic blocks, need
to take it into account when looking for a last instruction in the
bundle to prevent compiler crash.
Differential Revision: https://reviews.llvm.org/D126777
This reverts commit ec4adf1f6c. The commit causes
clang to hang on a certain input:
```
$ cat q.cc
int f(int a, int b) {
int c = ((unsigned char)(a >> 23) & 925);
if (a)
c = (a >> 23 & b) | ((unsigned char)(a >> 23) & 925) | (b >> 23 & 157);
return c;
}
$ time ./clang-15-10515 --target=x86_64--linux-gnu -O1 -c q.cc
^C
real 0m45.072s
user 0m0.025s
sys 0m0.099s
```
This patch updates the VPlan native path to use VPRegionBlocks for all
loops in a loop nest. Up to now, only the outermost loop used a region.
This is a step towards unifying both paths and keep things consistent
between them. It also prepares various code-gen parts for modeling the
pre-header in the inner loop vectorizer (D121624).
Reviewed By: Ayal
Differential Revision: https://reviews.llvm.org/D123005
The implementations of VPlanDominatorTree, VPlanLoopInfo and VPlanPredicator
are all incompatible with modeling loops in VPlans as region without
explicit back-edges.
Those pieces are not actively used and only exercised by a few gtest
unit tests. They are at the moment blocking progress towards unifying
the native and inner-loop vectorizer paths in D121624 and D123005.
I think we should not block forward progress on unused pieces of code,
so this patch removes the utilities for now. The plan is to re-introduce
them as needed in a way that is compatible with the unified VPlan scheme
used in both the inner loop vectorizer and the native path.
Reviewed By: sguggill
Differential Revision: https://reviews.llvm.org/D123017
Commit dd5991cc modified the aliasing checks here to allow transforming
a memcpy where the source and destination point into the same object.
However, the change accidentally made the code skip the alias check for
other operations in the loop.
Instead of completely skipping the alias check, just skip the check for
whether the memcpy aliases itself.
Differential Revision: https://reviews.llvm.org/D126486
X <=u (sext i1 Y) --> (X == 0) | Y
https://alive2.llvm.org/ce/z/W_tZzo
This is the conjugate/sibling pattern suggested with D126171
for a sign-extended bool value.
I chose to encode the allockind information in a string constant because
otherwise we would get a bit of an explosion of keywords to deal with
the possible permutations of allocation function types.
I'm not sure that CodeGen.h is the correct place for this enum, but it
seemed to kind of match the UWTableKind enum so I put it in the same
place. Constructive suggestions on a better location most certainly
encouraged.
Differential Revision: https://reviews.llvm.org/D123088
When reassociating GEPs, we can only keep inbounds if both original
GEPs were inbounds, and their offsets have the same sign. For the
sake of simplicity, I only handle the case where both offsets are
non-negative here.
It would probably be fine to just not preserve inbounds at all here,
but as I don't see a compile-time impact for adding the
isKnownNonNegative() calls I went with this more conservative
approach.
Fixes https://github.com/llvm/llvm-project/issues/44206.
Differential Revision: https://reviews.llvm.org/D126687
Even if the total offset is inbounds, we might represent it by first
performing a large negative offset and then a small positive one.
With inbounds semantics as currently specified, each offset must
be inbounds individually, not just the overall offset of the GEP.
Fix this by checking that the sign of all offsets is the same.
Fixes https://github.com/llvm/llvm-project/issues/55722.
(C2 >> X) >> C1 --> (C2 >> C1) >> X
The shift-left form of this transform has existed since:
16f18ed7b5
...but it applies to matching shift right opcodes too:
https://alive2.llvm.org/ce/z/c5eQms
The restriction goes back to:
16f18ed7b5
...but the fold only replaces a shift with a shift, so that's not necessary.
Generalizing to other opcodes is planned as a follow-up.
There are a few places where we use report_fatal_error when the input is broken.
Currently, this function always crashes LLVM with an abort signal, which
then triggers the backtrace printing code.
I think this is excessive, as wrong input shouldn't give a link to
LLVM's github issue URL and tell users to file a bug report.
We shouldn't print a stack trace either.
This patch changes report_fatal_error so it uses exit() rather than
abort() when its argument GenCrashDiag=false.
Reviewed by: nikic, MaskRay, RKSimon
Differential Revision: https://reviews.llvm.org/D126550
If only one of the GEPs is inbounds, then after swapping, there is
no guarantee that one of them will be inbounds as well
(see e.g. https://alive2.llvm.org/ce/z/agaCnp).
This is only a partial fix, because even if both are inbounds, the
result is not necessarily inbounds (if the offsets have different
signs).
As the long explanatory comment attests, performing the modification
in place is pretty tricky. Drop this unnecessary complexity and
always create new instructions.
This should be NFC-ish, but can probably cause difference due to
worklist order.
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
This whole part with recomputation of BPI and BFI looks redundant,
and we tried to get rid of it in D124439. Unfortunately, it causes
some hard-to-reproduce failures due to invalid state of analysis.
Until this is investigated and fixed, let's try to reuse at least
part of available analyzes.
DT is available at this point, and there is no need to recompute it.
Please revert if you see it causing *any* behavior changes.
This reverts the revert commit ad95255b92.
The updated version also creates a load when the store may not execute.
In those cases, we still need to introduce a load in a function where
there may not have been one before, so this doesn't completely resolve
issue #51248.
Original message:
When only a store is sunk, there is no need to create a load in the
pre-header, as the result of the load will never get used.
The dead load can can introduce UB, if the function is marked as
writeonly.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D123473
In LLVM's common loop terminology, an exit block is a block outside a
loop with a predecessor inside the loop. An exiting block is a block
inside the loop which branches to an exit block outside the loop.
This patch updates a few places where VPlan was using ExitBlock for a
block exiting a region. Those instances have been updated to use
ExitingBlock.
Reviewed By: Ayal
Differential Revision: https://reviews.llvm.org/D126173
(ashr i32 X, 31) * C --> (X < 0) ? -C : 0
https://alive2.llvm.org/ce/z/G8u9SS
With a constant operand, this is an improvement in IR
and codegen (where it can be converted to a mask op).
Without a constant operand, we would have to negate
the operand, so that is probably better left to the backend.
This is similar but not the same optimization that is requested
in #55618.
This patch adds !nosanitize metadata to FixedMetadataKinds.def, !nosanitize indicates that LLVM should not insert any sanitizer instrumentation.
Reviewed By: vitalybuka
Differential Revision: https://reviews.llvm.org/D126294
All callers pass true.
select-unfold-freeze.ll is now a subset of select.ll so delete it.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D126501
