I recently modified this pass to better support CHERI-RISC-V and while
doing so I noticed that this pass was calling M->getOrInsertFunction()
with the result of TLI->getLibcallName(RTLibType). However, AMDGPU fills
the libcalls array with nullptr, so this creates an anonymous function
instead. This patch changes expandAtomicOpToLibcall to return false in
case the libcall does not exist and changes the assert() in the callees to
a report_fatal_error() instead.
Reviewed By: arsenm
Differential Revision: https://reviews.llvm.org/D88800
We have added a new load/store cluster algorithm in D85517. However, AArch64 see
some compiling deg with the new algorithm as the IsReachable() is not cheap if
the DAG is complex. O(M+N) See https://bugs.llvm.org/show_bug.cgi?id=47966
So, this patch added a heuristic to switch to old cluster algorithm if the DAG is too complex.
Reviewed By: Owen Anderson
Differential Revision: https://reviews.llvm.org/D90144
Unsigned 32-bit or shorter integer to ppcf128 conversion are currently
expanded as signed-to-double with an extra fadd to 'complement'. But on
PowerPC we have native instruction to directly convert unsigned to
double since ISA v2.06. This patch exploits it.
Reviewed By: efriedma
Differential Revision: https://reviews.llvm.org/D89786
Add Legalization support for VECREDUCE_SEQ_FADD, so that we don't need to depend on ExpandReductionsPass.
Differential Revision: https://reviews.llvm.org/D90247
This commit adds a missed out line in earlier commit for DW_TAG_generic_subrange.
Previous commit ID: a6dd01afa3d5902203d04a72e0b478078f796a35
Differential Revision: https://reviews.llvm.org/D89218
Thanks markus for pointing this out.
Instcombine will currently sink identical shuffles though vector binary
operations. This is probably generally useful, but can break up the code
pattern we use to represent an interleaving load group. This patch
reverses that in the InterleaveAccessPass to re-recognise the pattern of
shuffles sunk past binary operations and folds them back if an
interleave group can be created.
Differential Revision: https://reviews.llvm.org/D89489
Since Wasm comdat sections work similarly to ELF, we can use that mechanism
to eliminate duplicate dwarf type information in the same way.
Differential Revision: https://reviews.llvm.org/D88603
We used to only emit static const data members in CodeView as
S_CONSTANTS when they were used; this patch makes it so they are always emitted.
This changes CodeViewDebug.cpp to find the static const members from the
class debug info instead of creating DIGlobalVariables in the IR
whenever a static const data member is used.
Bug: https://bugs.llvm.org/show_bug.cgi?id=47580
Differential Revision: https://reviews.llvm.org/D89072
This reverts commit 504615353f31136dd6bf7a971b6c236fd70582be.
This is needed to support fortran assumed rank arrays which
have runtime rank.
Summary:
Fortran assumed rank arrays have dynamic rank. DWARF TAG
DW_TAG_generic_subrange is needed to support that.
Testing:
unit test cases added (hand-written)
check llvm
check debug-info
Reviewed By: aprantl
Differential Revision: https://reviews.llvm.org/D89218
https://reviews.llvm.org/D88060
This adds the following combines
1) build_vector formation from insert_vec_elts
2) insert_vec_elts (build_vector) -> build_vector
Fix an out-of-bounds shift in emitLegacyZExt by using a slightly more
complicated dwarf expression to create the zext mask.
This addresses a UBSan diagnostic seen when compiling compiler-rt
(llvm.org/PR47927).
rdar://70307714
Differential Revision: https://reviews.llvm.org/D89838
Basically, this just improves the dump of the Value stored within a location.
If the defining instruction number is zero, it means it is "live-in".
Before the patch:
ESI --> bb 0 inst 0 loc ESI
After:
ESI --> Value{bb: 0, inst: live-in, loc: ESI}
This is an NFC.
Differential Revision: https://reviews.llvm.org/D90309
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
Since Wasm comdat sections work similarly to ELF, we can use that mechanism
to eliminate duplicate dwarf type information in the same way.
Differential Revision: https://reviews.llvm.org/D88603
These logically belong together since it's a base commit plus
followup fixes to less common build configurations.
The patches are:
Revert "CfgInterface: rename interface() to getInterface()"
This reverts commit a74fc481588fcea9317cbf1f6c5888a30c9edd2d.
Revert "Wrap CfgTraitsFor in namespace llvm to please GCC 5"
This reverts commit f2a06875b604c00cbe96e54363f4f5d28935d610.
Revert "Try to make GCC5 happy about the CfgTraits thing"
This reverts commit 03a5f7ce12e2111c8b7bc5a95cff4c51b516250f.
Revert "Introduce CfgTraits abstraction"
This reverts commit c0cdd22c72fab47a3c37b5a8401763995cadaa77.
This patch changes MergeBlockIntoPredecessor to skip the call to
RemoveRedundantDbgInstrs, in effect partially reverting D71480 due to
some compile-time issues spotted in LoopUnroll and SimplifyCFG.
The call to RemoveRedundantDbgInstrs appears to have changed the
worst-case behavior of the merging utility. Loosely speaking, it seems
to have gone from O(#phis) to O(#insts).
It might not be possible to mitigate this by scanning a block to
determine whether there are any debug intrinsics to remove, since such a
scan costs O(#insts).
So: skip the call to RemoveRedundantDbgInstrs. There's surprisingly
little fallout from this, and most of it can be addressed by doing
RemoveRedundantDbgInstrs later. The exception is (the block-local
version of) SimplifyCFG, where it might just be too expensive to call
RemoveRedundantDbgInstrs.
Differential Revision: https://reviews.llvm.org/D88928
As reading the source code, I've found some minor nits:
-Use using instead of typedef
-Fix a comment
-Refactor
Differential Revision: https://reviews.llvm.org/D90155
For i1 types, boolean false is represented identically regardless of
the boolean content, so we can allow optimizations that otherwise
would not be correct for booleans with false represented as a negative
one.
Patch by Erik Hogeman.
Differential Revision: https://reviews.llvm.org/D90145
Sometimes in unoptimized code, we have dangling unreachable basic blocks with no predecessors. Basic block sections should be emitted for those as well. Without this patch, the included test fails with a fatal error in `AsmPrinter::emitBasicBlockEnd`.
Reviewed By: tmsriram
Differential Revision: https://reviews.llvm.org/D89423
We used to only emit static const data members in CodeView as
S_CONSTANTS when they were used; this patch makes it so they are always emitted.
I changed CodeViewDebug.cpp to find the static const members from the
class debug info instead of creating DIGlobalVariables in the IR
whenever a static const data member is used.
Bug: https://bugs.llvm.org/show_bug.cgi?id=47580
Differential Revision: https://reviews.llvm.org/D89072
The modified code in visitSTORE was missing a scalable vector check, and still
using the now deprecated implicit cast of TypeSize to uint64_t through the
overloaded operator. This patch fixes these issues.
This brings the logic in line with the comment on the context line immediately
above the added precondition.
Add a test in sve-redundant-store.ll that the warning is not triggered.
Differential Revision: https://reviews.llvm.org/D89701
This reverts commit 4604441386dc5fcd3165f4b39f5fa2e2c600f1bc.
Reverting because it was not the intended version of the patch, which
follows this patch.
The modified code in visitSTORE was missing a scalable vector check, and still
using the now deprecated implicit cast of TypeSize to uint64_t through the
overloaded operator. This patch fixes these issues.
This brings the logic in line with the comment on the context line immediately
above the added precondition.
Add a test in Redundantstores.ll that the warning is not triggered.
This patch adds a remarks that provides counts for each opcode per basic block.
An snippet of the generated information can be seen below.
The current implementation uses the target specific opcode for the counts. For example, on AArch64 this means we currently get 2 entries for `add` instructions if the block contains 32 and 64 bit adds. Similarly, immediate version are treated differently.
Unfortunately there seems to be no convenient way to get only the mnemonic part of the instruction as a string AFAIK. This could be improved in the future.
```
--- !Analysis
Pass: asm-printer
Name: InstructionMix
DebugLoc: { File: arm64-instruction-mix-remarks.ll, Line: 30, Column: 30 }
Function: foo
Args:
- String: 'BasicBlock: '
- BasicBlock: else
- String: "\n"
- String: INST_MADDWrrr
- String: ': '
- INST_MADDWrrr: '2'
- String: "\n"
- String: INST_MOVZWi
- String: ': '
- INST_MOVZWi: '1'
```
Reviewed By: anemet, thegameg, paquette
Differential Revision: https://reviews.llvm.org/D89892
This adds a MultiHazardRecognizer and starts to make use of it in the
ARM backend. The idea of the class is to allow multiple independent
hazard recognizers to be added to a single base MultiHazardRecognizer,
allowing them to all work in parallel without requiring them to be
chained into subclasses. They can then be added or not based on cpu or
subtarget features, which will become useful in the ARM backend once
more hazard recognizers are being used for various things.
This also renames ARMHazardRecognizer to ARMHazardRecognizerFPMLx in the
process, to more clearly explain what that recognizer is designed for.
Differential Revision: https://reviews.llvm.org/D72939
Replace the X86 specific isSplatZeroExtended helper with a generic BuildVectorSDNode method.
I've just used this to simplify the X86ISD::BROADCASTM lowering so far (and remove isSplatZeroExtended), but we should be able to use this in more places to lower to complex broadcast patterns.
Differential Revision: https://reviews.llvm.org/D87930
This patch enables emitting DWARF `DW_OP_implicit_value` opcode when
tuning debug information for LLDB (`-debugger-tune=lldb`).
This will also propagate to Darwin platforms, since they use LLDB tuning
as a default.
rdar://67406059
Differential Revision: https://reviews.llvm.org/D90001
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>