During inlining of call-site with deoptimize intrinsic callee we miss
attributes set on this call site. As a result attributes like deopt-lowering are
disappeared resulting in inefficient behavior of register allocator in codegen.
Just copy attributes for deoptimize call like we do for others calls.
Reviewers: reames, apilipenko
Reviewed By: reames
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D102602
Resubmit after fixing test/Transforms/LoopVectorize/ARM/mve-gather-scatter-tailpred.ll
Previous commit message...
This is a resubmit of 3e5ce4 (which was reverted by 7fe41ac). The original commit caused a PPC build bot failure we never really got to the bottom of. I can't reproduce the issue, and the bot owner was non-responsive. In the meantime, we stumbled across an issue which seems possibly related, and worked around a latent bug in 80e8025. My best guess is that the original patch exposed that latent issue at higher frequency, but it really is just a guess.
Original commit message follows...
If we know that the scalar epilogue is required to run, modify the CFG to end the middle block with an unconditional branch to scalar preheader. This is instead of a conditional branch to either the preheader or the exit block.
The motivation to do this is to support multiple exit blocks. Specifically, the current structure forces us to identify immediate dominators and *which* exit block to branch from in the middle terminator. For the multiple exit case - where we know require scalar will hold - these questions are ill formed.
This is the last change needed to support multiple exit loops, but since the diffs are already large enough, I'm going to land this, and then enable separately. You can think of this as being NFCIish prep work, but the changes are a bit too involved for me to feel comfortable tagging the review that way.
Differential Revision: https://reviews.llvm.org/D94892
This is a resubmit of 3e5ce4 (which was reverted by 7fe41ac). The original commit caused a PPC build bot failure we never really got to the bottom of. I can't reproduce the issue, and the bot owner was non-responsive. In the meantime, we stumbled across an issue which seems possibly related, and worked around a latent bug in 80e8025. My best guess is that the original patch exposed that latent issue at higher frequency, but it really is just a guess.
Original commit message follows...
If we know that the scalar epilogue is required to run, modify the CFG to end the middle block with an unconditional branch to scalar preheader. This is instead of a conditional branch to either the preheader or the exit block.
The motivation to do this is to support multiple exit blocks. Specifically, the current structure forces us to identify immediate dominators and *which* exit block to branch from in the middle terminator. For the multiple exit case - where we know require scalar will hold - these questions are ill formed.
This is the last change needed to support multiple exit loops, but since the diffs are already large enough, I'm going to land this, and then enable separately. You can think of this as being NFCIish prep work, but the changes are a bit too involved for me to feel comfortable tagging the review that way.
Differential Revision: https://reviews.llvm.org/D94892
Similar versions of these already exist, this effectively just just
factors them out into STLExtras. I plan to use these in future patches.
Differential Revision: https://reviews.llvm.org/D100672
The implementation just extends the vector to a larger element type, and
extracts from that. Not fancy, but generates reasonable code.
There was discussion in the review of doing the promotion in
target-independent code, but I'm sticking with this to avoid making
LegalizeDAG infrastructure more complicated.
Differential Revision: https://reviews.llvm.org/D87651
Recommitting after fixing a bug found post commit. Amusingly, try 1 had been correct, and by reverting to incorporate last minute review feedback, I introduce the bug. Oops. :)
The problem was that recursively deleting an instruction can delete instructions beyond the current iterator (via a dead phi), thus invalidating iteration. Test case added in LoopUnroll/dce.ll to cover this case.
LoopUnroll does a limited DCE pass after unrolling, but if you have a chain of dead instructions, it only deletes the last one. Improve the code to recursively delete all trivially dead instructions.
Differential Revision: https://reviews.llvm.org/D102511
WebAssemblyDebugValueManager class currently does not handle
DBG_VALUE_LIST instructions correctly for two reasons, which are
explained in https://bugs.llvm.org/show_bug.cgi?id=50361.
This effectively nullifies DBG_VALUE_LISTs in
WebAssemblyDebugValueManager so that the info will appear as "optimized
out" in debuggers but still be at least correct in the meantime.
Reviewed By: dschuff, jmorse
Differential Revision: https://reviews.llvm.org/D102589
This reverts commit 747e5cfb9f5d944b47fe014925b0d5dc2fda74d7.
Reason: New frame layout broke the sanitizer unwinder. Not clear why,
but seems like some of the changes aren't always guarded by Swyft
checks. See
https://reviews.llvm.org/rG747e5cfb9f5d944b47fe014925b0d5dc2fda74d7 for
more information.
This is one of the folds requested in:
https://llvm.org/PR39480https://alive2.llvm.org/ce/z/NczU3V
Note - this uses the normal FMF propagation logic
(flags transfer from the final value to new/intermediate ops).
It's not clear if this matches what Alive2 implements,
so we may want to adjust one or the other.
Follow up to D88631 but for aarch64; the Linux kernel uses the command
line flags:
1. -mstack-protector-guard=sysreg
2. -mstack-protector-guard-reg=sp_el0
3. -mstack-protector-guard-offset=0
to use the system register sp_el0 for the stack canary, enabling the
kernel to have a unique stack canary per task (like a thread, but not
limited to userspace as the kernel can preempt itself).
Address pr/47341 for aarch64.
Fixes: https://github.com/ClangBuiltLinux/linux/issues/289
Signed-off-by: Nick Desaulniers <ndesaulniers@google.com>
Reviewed By: xiangzhangllvm, DavidSpickett, dmgreen
Differential Revision: https://reviews.llvm.org/D100919
The LAM mode is currently untested by check-hwasan, so we only need
to build the runtime in aliasing mode. Because LAM mode will always
need to be conditional (because only certain hardware will support
it) we can always just disable the LAM lit tests if it ever starts
being tested.
This patch contains the bare minimum to run the new Pass Manager from the LLVM-C APIs. It does not feature PGOOptions, PassPlugins or Debugify in its current state. Bugzilla: PR48499
Reviewed By: aeubanks
Differential Revision: https://reviews.llvm.org/D102136
This patch contains the bare minimum to run the new Pass Manager from the LLVM-C APIs. It does not feature PGOOptions, PassPlugins or Debugify in its current state. Bugzilla: PR48499
Reviewed By: aeubanks
Differential Revision: https://reviews.llvm.org/D102136
I think i've added exhaustive test coverage, and i have verified that alive2 is happy with all the tests,
so in principle i'm fine with landing this without review, but just in case..
This adds support for the "count active bits" pattern, i.e.:
```
int countActiveBits(unsigned val) {
int cnt = 0;
for( ; (val >> cnt) != 0; ++cnt)
;
return cnt;
}
```
but a somewhat more general one, since that is what i need:
```
int countActiveBits(unsigned val, int start, int off) {
int cnt;
for (cnt = start; val >> (cnt + off); cnt++)
;
return cnt;
}
```
I've followed in footstep of 'left-shift until bittest' idiom (D91038),
in the sense that iff the `ctlz` intrinsic is cheap, we'll transform,
regardless of all other factors.
This can have a shocking effect on certain benchmarks:
```
raw.pixls.us-unique/Olympus/XZ-1$ /repositories/googlebenchmark/tools/compare.py -a benchmarks ~/rawspeed/build-{old,new}/src/utilities/rsbench/rsbench --benchmark_counters_tabular=true --benchmark_min_time=0.00000001 --benchmark_repetitions=128 p1319978.orf
RUNNING: /home/lebedevri/rawspeed/build-old/src/utilities/rsbench/rsbench --benchmark_counters_tabular=true --benchmark_min_time=0.00000001 --benchmark_repetitions=128 p1319978.orf --benchmark_display_aggregates_only=true --benchmark_out=/tmp/tmp49_28zcm
2021-05-09T01:06:05+03:00
Running /home/lebedevri/rawspeed/build-old/src/utilities/rsbench/rsbench
Run on (32 X 3600.24 MHz CPU s)
CPU Caches:
L1 Data 32 KiB (x16)
L1 Instruction 32 KiB (x16)
L2 Unified 512 KiB (x16)
L3 Unified 32768 KiB (x2)
Load Average: 5.26, 6.29, 3.49
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Benchmark Time CPU Iterations CPUTime,s CPUTime/WallTime Pixels Pixels/CPUTime Pixels/WallTime Raws/CPUTime Raws/WallTime WallTime,s
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
p1319978.orf/threads:32/process_time/real_time_mean 145 ms 145 ms 128 0.145319 0.999981 10.1568M 69.8949M 69.8936M 6.88159 6.88146 0.145322
p1319978.orf/threads:32/process_time/real_time_median 145 ms 145 ms 128 0.145317 0.999986 10.1568M 69.8941M 69.8931M 6.88151 6.88141 0.145319
p1319978.orf/threads:32/process_time/real_time_stddev 0.766 ms 0.766 ms 128 766.586u 15.1302u 0 354.167k 354.098k 0.0348699 0.0348631 766.469u
RUNNING: /home/lebedevri/rawspeed/build-new/src/utilities/rsbench/rsbench --benchmark_counters_tabular=true --benchmark_min_time=0.00000001 --benchmark_repetitions=128 p1319978.orf --benchmark_display_aggregates_only=true --benchmark_out=/tmp/tmpwb9sw2x0
2021-05-09T01:06:24+03:00
Running /home/lebedevri/rawspeed/build-new/src/utilities/rsbench/rsbench
Run on (32 X 3599.95 MHz CPU s)
CPU Caches:
L1 Data 32 KiB (x16)
L1 Instruction 32 KiB (x16)
L2 Unified 512 KiB (x16)
L3 Unified 32768 KiB (x2)
Load Average: 4.05, 5.95, 3.43
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Benchmark Time CPU Iterations CPUTime,s CPUTime/WallTime Pixels Pixels/CPUTime Pixels/WallTime Raws/CPUTime Raws/WallTime WallTime,s
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
p1319978.orf/threads:32/process_time/real_time_mean 99.8 ms 99.8 ms 128 0.0997758 0.999972 10.1568M 101.797M 101.794M 10.0225 10.0222 0.0997786
p1319978.orf/threads:32/process_time/real_time_median 99.7 ms 99.7 ms 128 0.0997165 0.999985 10.1568M 101.857M 101.854M 10.0284 10.0281 0.0997195
p1319978.orf/threads:32/process_time/real_time_stddev 0.224 ms 0.224 ms 128 224.166u 34.345u 0 226.81k 227.231k 0.0223309 0.0223723 224.586u
Comparing /home/lebedevri/rawspeed/build-old/src/utilities/rsbench/rsbench to /home/lebedevri/rawspeed/build-new/src/utilities/rsbench/rsbench
Benchmark Time CPU Time Old Time New CPU Old CPU New
----------------------------------------------------------------------------------------------------------------------------------------------------
p1319978.orf/threads:32/process_time/real_time_pvalue 0.0000 0.0000 U Test, Repetitions: 128 vs 128
p1319978.orf/threads:32/process_time/real_time_mean -0.3134 -0.3134 145 100 145 100
p1319978.orf/threads:32/process_time/real_time_median -0.3138 -0.3138 145 100 145 100
p1319978.orf/threads:32/process_time/real_time_stddev -0.7073 -0.7078 1 0 1 0
```
Reviewed By: craig.topper, zhuhan0
Differential Revision: https://reviews.llvm.org/D102116
This patch adds a new test for loop-unrolling with multiple exiting
blocks, where the latch does not exit, but the header does. This can
happen when the loop has not been rotated, e.g. due to minsize.
Inspired by the following end-to-end test, using -Oz
https://godbolt.org/z/fP6sna8qK
bool foo(int *ptr, int limit) {
#pragma clang loop unroll(full)
for (unsigned int i = 0; i < 4; i++) {
if (ptr[i] > limit)
return false;
ptr[i]++;
}
return true;
}
All of the CHECK lines should be identical to before,
but without any of the x86-specific calls that were
replaced with generic FMA long ago.
The file still has value because it shows a miscompile
as demonstrated in D90901, but we probably need to
add tests with FMF to make that explicit without
losing coverage.
Set the output register class based on the output type, instead of
hard-coding VGPR_32. I think this is more correct. It doesn't make any
difference at the moment because we use the same class for 16- and
32-bit results, but it might in future if we make more use of true
16-bit register classes.
Differential Revision: https://reviews.llvm.org/D102622
Adding lowering support for bitreverse.
Previously, lowering bitreverse would expand it into a series of other instructions. This patch makes it so this produces a single rbit instruction instead.
Reviewed By: dmgreen
Differential Revision: https://reviews.llvm.org/D102397
This fixes https://bugs.llvm.org/show_bug.cgi?id=50370,
which reports a yet another endless combine loop,
this one regressed from 554b1bced325a8d860ad00bd59020d66d01c95f8,
which fixed yet another endless combine loop (PR50308)
This code had fallen into the very typical pitfall of forgetting
that constant expressions exist, and they aren't free to invert,
because the `not` won't be absorbed by the "constant",
but will remain a (constant) expression...
Currently, if the user specifies the environment variable 'CLANG', tests
will attempt to use the value as a path to the clang executable.
Previously, lldb could also be specified via the CLANG environment
variable, but this was almost certainly a bug, because that meant both
clang and lldb would have the same path. This patch changes the
environment variable for lldb to 'LLDB'.
Reviewed by: thopre, teemperor
Differential Revision: https://reviews.llvm.org/D101982
These patterns are missing even though the underlying instruction
doesn't really care about the type. Added these patterns to resolve
https://bugs.llvm.org/show_bug.cgi?id=50084
This instruction is a nop on all server cores (certainly on all
cores that AIX supports) so it is fine to emit a nop instead of it.
In fact, that is exactly what XL emits. So we emit a nop on AIX
and we leave the codegen as is on other platforms since there may
indeed be cores out there for which this actually does some prefetching.
This adds support to the X86 backend for the newly committed swiftasync
function parameter. If such a (pointer) parameter is present it gets stored
into an augmented frame record (populated in IR, but generally containing
enhanced backtrace for coroutines using lots of tail calls back and forth).
The context frame is identical to AArch64 (primarily so that unwinders etc
don't get extra complexity). Specfically, the new frame record is [AsyncCtx,
%rbp, ReturnAddr], and its presence is signalled by bit 60 of the stored %rbp
being set to 1. %rbp still points to the frame pointer in memory for backwards
compatibility (only partial on x86, but OTOH the weird AsyncCtx before the rest
of the record is because of x86).
Ensure we tell getShiftAmountTy that we're working with pre-legalized types to prevent cases where the (legalized) shift type can no longer handle the (non-legalized) type width.
Fixes https://bugs.chromium.org/p/oss-fuzz/issues/detail?id=34366