This patch updates DbgVariableIntrinsics to support use of a DIArgList for the
location operand, resulting in a significant change to its interface. This patch
does not update all IR passes to support multiple location operands in a
dbg.value; the only change is to update the DbgVariableIntrinsic interface and
its uses. All code outside of the intrinsic classes assumes that an intrinsic
will always have exactly one location operand; they will still support
DIArgLists, but only if they contain exactly one Value.
Among other changes, the setOperand and setArgOperand functions in
DbgVariableIntrinsic have been made private. This is to prevent code from
setting the operands of these intrinsics directly, which could easily result in
incorrect/invalid operands being set. This does not prevent these functions from
being called on a debug intrinsic at all, as they can still be called on any
CallInst pointer; it is assumed that any code directly setting the operands on a
generic call instruction is doing so safely. The intention for making these
functions private is to prevent DIArgLists from being overwritten by code that's
naively trying to replace one of the Values it points to, and also to fail fast
if a DbgVariableIntrinsic is updated to use a DIArgList without a valid
corresponding DIExpression.
It's just a wrong thing to do.
We introduce inttoptr where there were none, which results in
loosing all provenance information because we no longer have a GEP{i,},
and pessimize all future optimizations,
because we are basically not allowed to look past `inttoptr`.
(gep i8* X, -(ptrtoint Y)) *is* the canonical form.
So just drop this fold.
Noticed while reviewing D98120.
This patch modifies TryToSinkInstruction in the InstCombine pass, to prevent
redundant debug intrinsics from being produced, and also prevent the intrinsics
from being emitted in an incorrect order. It does this by ensuring that when
this pass sinks an instruction and creates clones of the debug intrinsics that
use that instruction, it inserts those debug intrinsics in their original order,
and only inserts the last debug intrinsic for each variable in the Instruction's
block.
Differential revision: https://reviews.llvm.org/D95463
This patch simply implements the documented UB of the current nofree attributes as specified. It doesn't try to be fancy about inference (yet), it just implements the cases already specified and inferred.
Note: When this lands, it may expose miscompiles. If so, please revert and provide a test case. It's likely the bug is in the existing inference code and without a relatively complete test case, it will be hard to debug.
Differential Revision: https://reviews.llvm.org/D96349
The IR/MIR pseudo probe intrinsics don't get materialized into real machine instructions and therefore they don't incur runtime cost directly. However, they come with indirect cost by blocking certain optimizations. Some of the blocking are intentional (such as blocking code merge) for better counts quality while the others are accidental. This change unblocks perf-critical optimizations that do not affect counts quality. They include:
1. IR InstCombine, sinking load operation to shorten lifetimes.
2. MIR LiveRangeShrink, similar to #1
3. MIR TwoAddressInstructionPass, i.e, opeq transform
4. MIR function argument copy elision
5. IR stack protection. (though not perf-critical but nice to have).
Reviewed By: wmi
Differential Revision: https://reviews.llvm.org/D95982
A @llvm.experimental.noalias.scope.decl is only useful if there is !alias.scope and !noalias metadata that uses the declared scope.
When that is not the case for at least one of the two, the intrinsic call can as well be removed.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D95141
Currently make_early_inc_range cannot be used with iterators with
operator* implementations that do not return a reference.
Most notably in the LLVM codebase, this means the User iterator ranges
cannot be used with make_early_inc_range, which slightly simplifies
iterating over ranges while elements are removed.
Instead of directly using BaseT::reference as return type of operator*,
this patch uses decltype to get the actual return type of the operator*
implementation in WrappedIteratorT.
This patch also updates a few places to use make use of
make_early_inc_range.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D93992
This reverts commit eb79fd3c928dbbb97f7937963361c1dad2bf8222.
This causes stage2 crashes, possibly due to StringMap being
miscompiled. Reverting for now.
The source pointer type is not necessarily the same as the result
pointer type, so we can't simply return the original null pointer,
it might be a different one.
Effectively, this is what we were previously already doing when
the GEP was used in conjunction with a load or store, but this
fold can also be applied more generally:
> The only in bounds address for a null pointer in the default
> address-space is the null pointer itself.
If the source instruction has !annotation metadata, all instructions
created during combining should also have it. Tell the builder to
add it.
The !annotation system was discussed on llvm-dev as part of
'RFC: Combining Annotation Metadata and Remarks'
(http://lists.llvm.org/pipermail/llvm-dev/2020-November/146393.html)
This patch is based on an earlier patch by Francis Visoiu Mistrih.
Reviewed By: thegameg, lebedev.ri
Differential Revision: https://reviews.llvm.org/D91444
This patch extends IRBuilder to allow adding/preserving arbitrary
metadata on created instructions.
Instead of using references to specific metadata nodes (like DebugLoc),
IRbuilder now keeps a vector of (metadata kind, MDNode *) pairs, which
are added to each created instruction.
The patch itself is a NFC and only moves the existing debug location
handling over to the new system. In a follow-up patch it will be used to
preserve !annotation metadata besides !dbg.
The current approach requires iterating over MetadataToCopy to avoid
adding duplicates, but given that the number of metadata kinds to
copy/preserve is going to be very small initially (0, 1 (for !dbg) or 2
(!dbg and !annotation)) that should not matter.
Reviewed By: lebedev.ri
Differential Revision: https://reviews.llvm.org/D93400
When replacing an instruction with !annotation with a newly created
replacement, add the !annotation metadata to the replacement.
This mostly covers cases where the new instructions are created using
the ::Create helpers. Instructions created by IRBuilder will be handled
by D91444.
Reviewed By: thegameg
Differential Revision: https://reviews.llvm.org/D93399
The test is reduced from the example in D82005.
Similar to 94f6d365e, the test here would assert in
the DomTree when we tried to convert a select to a
phi with an unreachable block operand.
We may want to add some kind of guard code in DomTree
itself to avoid this sort of problem.
Summary:
AIX uses the existing EH infrastructure in clang and llvm.
The major differences would be
1. AIX do not have CFI instructions.
2. AIX uses a new personality routine, named __xlcxx_personality_v1.
It doesn't use the GCC personality rountine, because the
interoperability is not there yet on AIX.
3. AIX do not use eh_frame sections. Instead, it would use a eh_info
section (compat unwind section) to store the information about
personality routine and LSDA data address.
Reviewed By: daltenty, hubert.reinterpretcast
Differential Revision: https://reviews.llvm.org/D91455
The types of SEH aren't x86(-32) vs x64 but rather stack-based exception chaining
vs table-based exception handling. x86-32 is the only arch for which Windows
uses the former. 32-bit ARM would use what is called Win64SEH today, which
is a bit confusing so instead let's just rename it to be a bit more clear.
Reviewed By: compnerd, rnk
Differential Revision: https://reviews.llvm.org/D90117
When InstCombine removes an alloca, it erases the dbg.{addr,declare}
instructions which refer to the alloca. It would be better to instead
remove all debug intrinsics which describe the contents of the dead
alloca, namely all dbg.value(<dead alloca>, ..., DW_OP_deref)'s.
This effectively undoes work performed in an InstCombine run earlier in
the pipeline by LowerDbgDeclare, which inserts DW_OP_deref dbg.values
before CallInst users of an alloca. The motivating example looks like:
```
define void @foo(i32 %0) {
%a = alloca i32 ; This alloca is erased.
store i32 %0, i32* %a
dbg.value(i32 %0, "arg0") ; This dbg.value survives.
dbg.value(i32* %a, "arg0", DW_OP_deref)
call void @trivially_inlinable_no_op(i32* %a)
ret void
}
```
If the DW_OP_deref dbg.value is not erased, it becomes dbg.value(undef)
after inlining, making "arg0" unavailable. But we already have dbg.value
descriptions of the alloca's value (from LowerDbgDeclare), so the
DW_OP_deref dbg.value cannot serve its purpose of describing an
initialization of the alloca by some callee. It invalidates other useful
dbg.values, causing large gaps in location coverage, so we should delete
it (even though doing so may cause stale dbg.values to appear, if
there's a dead store to `%a` in @trivially_inlinable_no_op).
OTOH, it wouldn't be correct to delete all dbg.value descriptions of an
alloca. Note that it's possible to describe a variable that takes on
different pointer values, e.g.:
```
void use(int *);
void t(int a, int b) {
int *local = &a; // dbg.value(i32* %a.addr, "local")
local = &b; // dbg.value(i32* undef, "local")
use(&a); // (note: %b.addr is optimized out)
local = &a; // dbg.value(i32* %a.addr, "local")
}
```
In this example, the alloca for "b" is erased, but we need to describe
the value of "local" as <unavailable> before the call to "use". This
prevents "local" from appearing to be equal to "&a" at the callsite.
rdar://66592859
Differential Revision: https://reviews.llvm.org/D85555
The test (currently crashing) is reduced from the example provided
in the post-commit discussion in D87149.
Differential Revision: https://reviews.llvm.org/D87965
See discussion in D87149. Dropping volatile stores here is legal
per LLVM semantics, but causes issues for real code and may result
in a change to LLVM volatile semantics. Temporarily treat volatile
stores as "not guaranteed to transfer execution" in just this place,
until this issue has been resolved.
Normal dead code elimination ignores assume intrinsics, so we fail to
delete assumes that are not meaningful (and potentially worse if they
cause conflicts with other assumptions).
The motivating example in https://llvm.org/PR47416 suggests that we
might have problems upstream from here (difference between C and C++),
but this should be a cheap way to make sure we remove more dead code.
Differential Revision: https://reviews.llvm.org/D87149
As we've established, if it takes more than two iterations
(one to perform folding and one to ensure that no folding opportunities
remain) per function, then there are worklist management issues.
So it may be interesting to keep track of it.
And as being reported by Florian Hahn, there's a hit
in MultiSource/Benchmarks/mafft from the test-suite on X86 with -O3 -flto,
so reverting until addressed.
This reverts commit 71e0b82c9f5039cb3987c91075e78733ef044c07.
It's been a month since 2f3862eb9f21e8a0d48505637fefe6e5e295c18c,
and no new bug reports about the threshold were filled,
so let's bump it again and wait again.
This pattern happens in clang C++ exception lowering code, on unwind branch.
We end up having a `landingpad` block after each `invoke`, where RAII
cleanup is performed, and the elements of an aggregate `{i8*, i32}`
holding exception info are `extractvalue`'d, and we then branch to common block
that takes extracted `i8*` and `i32` elements (via `phi` nodes),
form a new aggregate, and finally `resume`'s the exception.
The problem is that, if the cleanup block is effectively empty,
it shouldn't be there, there shouldn't be that `landingpad` and `resume`,
said `invoke` should be a `call`.
Indeed, we do that simplification in e.g. SimplifyCFG `SimplifyCFGOpt::simplifyResume()`.
But the thing is, all this extra `extractvalue` + `phi` + `insertvalue` cruft,
while it is pointless, does not look like "empty cleanup block".
So the `SimplifyCFGOpt::simplifyResume()` fails, and the exception is has
higher cost than it could have on unwind branch :S
This doesn't happen *that* often, but it will basically happen once per C++
function with complex CFG that called more than one other function
that isn't known to be `nounwind`.
I think, this is a missing fold in InstCombine, so i've implemented it.
I think, the algorithm/implementation is rather self-explanatory:
1. Find a chain of `insertvalue`'s that fully tell us the initializer of the aggregate.
2. For each element, try to find from which aggregate it was extracted.
If it was extracted from the aggregate with identical type,
from identical element index, great.
3. If all elements were found to have been extracted from the same aggregate,
then we can just use said original source aggregate directly,
instead of re-creating it.
4. If we fail to find said aggregate when looking only in the current block,
we need be PHI-aware - we might have different source aggregate when coming
from each predecessor.
I'm not sure if this already handles everything, and there are some FIXME's,
i'll deal with all that later in followups.
I'd be fine with going with post-commit review here code-wise,
but just in case there are thoughts, i'm posting this.
On RawSpeed, for example, this has the following effect:
```
| statistic name | baseline | proposed | Δ | % | abs(%) |
|---------------------------------------------------|---------:|---------:|------:|--------:|-------:|
| instcombine.NumAggregateReconstructionsSimplified | 0 | 1253 | 1253 | 0.00% | 0.00% |
| simplifycfg.NumInvokes | 948 | 1355 | 407 | 42.93% | 42.93% |
| instcount.NumInsertValueInst | 4382 | 3210 | -1172 | -26.75% | 26.75% |
| simplifycfg.NumSinkCommonCode | 574 | 458 | -116 | -20.21% | 20.21% |
| simplifycfg.NumSinkCommonInstrs | 1154 | 921 | -233 | -20.19% | 20.19% |
| instcount.NumExtractValueInst | 29017 | 26397 | -2620 | -9.03% | 9.03% |
| instcombine.NumDeadInst | 166618 | 174705 | 8087 | 4.85% | 4.85% |
| instcount.NumPHIInst | 51526 | 50678 | -848 | -1.65% | 1.65% |
| instcount.NumLandingPadInst | 20865 | 20609 | -256 | -1.23% | 1.23% |
| instcount.NumInvokeInst | 34023 | 33675 | -348 | -1.02% | 1.02% |
| simplifycfg.NumSimpl | 113634 | 114708 | 1074 | 0.95% | 0.95% |
| instcombine.NumSunkInst | 15030 | 14930 | -100 | -0.67% | 0.67% |
| instcount.TotalBlocks | 219544 | 219024 | -520 | -0.24% | 0.24% |
| instcombine.NumCombined | 644562 | 645805 | 1243 | 0.19% | 0.19% |
| instcount.TotalInsts | 2139506 | 2135377 | -4129 | -0.19% | 0.19% |
| instcount.NumBrInst | 156988 | 156821 | -167 | -0.11% | 0.11% |
| instcount.NumCallInst | 1206144 | 1207076 | 932 | 0.08% | 0.08% |
| instcount.NumResumeInst | 5193 | 5190 | -3 | -0.06% | 0.06% |
| asm-printer.EmittedInsts | 948580 | 948299 | -281 | -0.03% | 0.03% |
| instcount.TotalFuncs | 11509 | 11507 | -2 | -0.02% | 0.02% |
| inline.NumDeleted | 97595 | 97597 | 2 | 0.00% | 0.00% |
| inline.NumInlined | 210514 | 210522 | 8 | 0.00% | 0.00% |
```
So we manage to increase the amount of `invoke` -> `call` conversions in SimplifyCFG by almost a half,
and there is a very apparent decrease in instruction and basic block count.
On vanilla llvm-test-suite:
```
| statistic name | baseline | proposed | Δ | % | abs(%) |
|---------------------------------------------------|---------:|---------:|------:|--------:|-------:|
| instcombine.NumAggregateReconstructionsSimplified | 0 | 744 | 744 | 0.00% | 0.00% |
| instcount.NumInsertValueInst | 2705 | 2053 | -652 | -24.10% | 24.10% |
| simplifycfg.NumInvokes | 1212 | 1424 | 212 | 17.49% | 17.49% |
| instcount.NumExtractValueInst | 21681 | 20139 | -1542 | -7.11% | 7.11% |
| simplifycfg.NumSinkCommonInstrs | 14575 | 14361 | -214 | -1.47% | 1.47% |
| simplifycfg.NumSinkCommonCode | 6815 | 6743 | -72 | -1.06% | 1.06% |
| instcount.NumLandingPadInst | 14851 | 14712 | -139 | -0.94% | 0.94% |
| instcount.NumInvokeInst | 27510 | 27332 | -178 | -0.65% | 0.65% |
| instcombine.NumDeadInst | 1438173 | 1443371 | 5198 | 0.36% | 0.36% |
| instcount.NumResumeInst | 2880 | 2872 | -8 | -0.28% | 0.28% |
| instcombine.NumSunkInst | 55187 | 55076 | -111 | -0.20% | 0.20% |
| instcount.NumPHIInst | 321366 | 320916 | -450 | -0.14% | 0.14% |
| instcount.TotalBlocks | 886816 | 886493 | -323 | -0.04% | 0.04% |
| instcount.TotalInsts | 7663845 | 7661108 | -2737 | -0.04% | 0.04% |
| simplifycfg.NumSimpl | 886791 | 887171 | 380 | 0.04% | 0.04% |
| instcount.NumCallInst | 553552 | 553733 | 181 | 0.03% | 0.03% |
| instcombine.NumCombined | 3200512 | 3201202 | 690 | 0.02% | 0.02% |
| instcount.NumBrInst | 741794 | 741656 | -138 | -0.02% | 0.02% |
| simplifycfg.NumHoistCommonInstrs | 14443 | 14445 | 2 | 0.01% | 0.01% |
| asm-printer.EmittedInsts | 7978085 | 7977916 | -169 | 0.00% | 0.00% |
| inline.NumDeleted | 73188 | 73189 | 1 | 0.00% | 0.00% |
| inline.NumInlined | 291959 | 291968 | 9 | 0.00% | 0.00% |
```
Roughly similar effect, less instructions and blocks total.
See also: rGe492f0e03b01a5e4ec4b6333abb02d303c3e479e.
Compile-time wise, this appears to be roughly geomean-neutral:
http://llvm-compile-time-tracker.com/compare.php?from=39617aaed95ac00957979bc1525598c1be80e85e&to=b59866cf30420da8f8e3ca239ed3bec577b23387&stat=instructions
And this is a win size-wize in general:
http://llvm-compile-time-tracker.com/compare.php?from=39617aaed95ac00957979bc1525598c1be80e85e&to=b59866cf30420da8f8e3ca239ed3bec577b23387&stat=size-text
See https://bugs.llvm.org/show_bug.cgi?id=47060
Reviewed By: spatel
Differential Revision: https://reviews.llvm.org/D85787
When removing instructions from unreachable blocks, and only debug info
intrinsics were removed, InstCombine could incorrectly return a false
Modified status.
This is fixed by making removeAllNonTerminatorAndEHPadInstructions()
also return how many debug info intrinsics that were removed, and take
that into account.
This was caught using the check introduced by D80916.
Reviewed By: majnemer
Differential Revision: https://reviews.llvm.org/D85839
Without this patch, we attempt to distribute And over Xor even in
unsafe circumstances like so:
undef & (true ^ true) ==> (undef & true) ^ (undef & true)
and evaluate it to undef instead of false. Note that "true ^ true"
may show up implicitly with one true being part of a PHI node.
This patch fixes the problem by teaching SimplifyUsingDistributiveLaws
to not use undef as part of simplifications.
Reviewers: spatel, aqjune, nikic, lebedev.ri, fhahn, jdoerfert
Differential Revision: https://reviews.llvm.org/D85687
This is a simple patch that folds freeze(undef) into a proper constant after inspecting its uses.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D84948
This patch adds folding freeze into phi if it has only one operand to target.
Reviewed By: nikic
Differential Revision: https://reviews.llvm.org/D84601
For a long time, the InstCombine pass handled target specific
intrinsics. Having target specific code in general passes was noted as
an area for improvement for a long time.
D81728 moves most target specific code out of the InstCombine pass.
Applying the target specific combinations in an extra pass would
probably result in inferior optimizations compared to the current
fixed-point iteration, therefore the InstCombine pass resorts to newly
introduced functions in the TargetTransformInfo when it encounters
unknown intrinsics.
The patch should not have any effect on generated code (under the
assumption that code never uses intrinsics from a foreign target).
This introduces three new functions:
TargetTransformInfo::instCombineIntrinsic
TargetTransformInfo::simplifyDemandedUseBitsIntrinsic
TargetTransformInfo::simplifyDemandedVectorEltsIntrinsic
A few target specific parts are left in the InstCombine folder, where
it makes sense to share code. The largest left-over part in
InstCombineCalls.cpp is the code shared between arm and aarch64.
This allows to move about 3000 lines out from InstCombine to the targets.
Differential Revision: https://reviews.llvm.org/D81728
This reverts commit 4500db8c59621a31c622862a2946457fdee481ce,
which was reverted because lower thresholds exposed a new issue (PR46680).
Now that it was resolved by d12ec0f752e7f2c7f7252539da2d124264ec33f7,
we can reinstate lower limits and wait for a new bugreport before
reverting this again...
Summary:
As @nikic is pointing out in https://bugs.llvm.org/show_bug.cgi?id=46680#c5,
InstCombine should not have forward instruction scans,
so let's move this transform into the proper place.
This is pretty much NFCI.
Reviewers: nikic, spatel
Reviewed By: nikic
Subscribers: hiraditya, llvm-commits, nikic
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D83670
This reverts commit 9649c2095f07a392bc2b2a93b5bd6c4c9bf5ba34. See
discussion on the llvm-commits thread: if it's OK to preserve the
location when sinking a call, it's probably OK to always preserve the
location.
This relands commit cd7f8051ac7b6f08734102446482c1e5d951bfcc that was
reverted since lower threshold have successfully found an issue.
Now that the issue is fixed, let's wait until the next one is reported.
This reverts commit caa423eef0d128f35ac11ddbce34964caafb61c1.
And just after 3 days, we have a hit in `InstCombiner::mergeStoreIntoSuccessor()`:
https://bugs.llvm.org/show_bug.cgi?id=46661
To be recommitted once that is addressed.
This reverts commit cd7f8051ac7b6f08734102446482c1e5d951bfcc.
Summary:
1000 iteratons is still kinda a lot.
Would it make sense to iteratively lower it, until it becomes `2`,
with some delay inbetween in order to let users actually potentially encounter it?
Reviewers: spatel, nikic, kuhar
Reviewed By: nikic
Subscribers: hiraditya, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D83160
Summary:
The actual transform i was going after was:
https://rise4fun.com/Alive/Tp9H
```
Name: zz
Pre: isPowerOf2(C0) && isPowerOf2(C1) && C1 == C0
%t0 = and i8 %x, C0
%r = icmp eq i8 %t0, C1
=>
%t = icmp eq i8 %t0, 0
%r = xor i1 %t, -1
Name: zz
Pre: isPowerOf2(C0)
%t0 = and i8 %x, C0
%r = icmp ne i8 %t0, 0
=>
%t = icmp eq i8 %t0, 0
%r = xor i1 %t, -1
```
but as it can be seen from the current tests, we already canonicalize most of it,
and we are only missing handling multi-use non-canonical icmp predicates.
If we have both `!=0` and `==0`, even though we can CSE them,
we end up being stuck with them. We should canonicalize to the `==0`.
I believe this is one of the cleanup steps i'll need after `-scalarizer`
if i end up proceeding with my WIP alloca promotion helper pass.
Reviewers: spatel, jdoerfert, nikic
Reviewed By: nikic
Subscribers: zzheng, hiraditya, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D83139
