No verification for pass mangers since it is not needed.
No verification for skipped loop pass since the asserted condition is not used.
Add a BeforeNonSkippedPass callback for this. The callback needs more
inputs than its parameters to work so the callback is added on-the-fly.
Reviewed By: aeubanks, asbirlea
Differential Revision: https://reviews.llvm.org/D84977
This removes members of the DIEUnit class which were used only in unit
tests. Note also that child classes shadowed some of these methods,
namely, getDwarfVersion() was overridden in DwartfUnit and getLength()
was overridden in DwarfCompileUnit.
Differential Revision: https://reviews.llvm.org/D85436
This is a split patch of D80991.
This patch introduces AAPotentialValues and its interface only.
For more detail of AAPotentialValues abstract attribute, see the original patch.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D83283
This patch implements the function prototypes vec_extractl and vec_extracth in altivec.h to utilize the vector extract double element instructions introduced in Power10.
Differential Revision: https://reviews.llvm.org/D84622
If we can't identify alloca used in lifetime marker we
need to assume to worst case scenario.
Reviewed By: eugenis
Differential Revision: https://reviews.llvm.org/D84630
addGlobalValueSummary can check newly added FunctionSummary
and set HasParamAccess to mark that generateParamAccessSummary
is needed.
Reviewed By: tejohnson
Differential Revision: https://reviews.llvm.org/D85182
Use the same basic strategy as LegalizeVectorTypes. Try to index into
smaller pieces if there's a constant index, and otherwise fall back to
a stack temporary.
I skimmed the existing users of these matchers and don't see any problems
(eg, the caller assumes the matched value was a select instruction without checking).
So I think we can generalize the matching to allow the new intrinsics or the cmp+select idioms.
I did not find any unit tests for the matchers, so added some basics there. The instsimplify
tests are adapted from existing tests for the cmp+select pattern and cover the folds in
simplifyICmpWithMinMax().
Differential Revision: https://reviews.llvm.org/D85230
This reverts commit 87c5437afd273e909e0fed3389de7531d5452ea5.
The commit includes several headers in the middle of a function, which
breaks pretty much everything.
We already need to include raw_ostream.h, also add missing StringRef.h and cstdint implicit dependencies.
Remove unnecessary includes from PDBExtras.cpp
Arm MVE has multiple instructions such as VMLAVA.s8, which (in this
case) can take two 128bit vectors, sign extend the inputs to i32,
multiplying them together and sum the result into a 32bit general
purpose register. So taking 16 i8's as inputs, they can multiply and
accumulate the result into a single i32 without any rounding/truncating
along the way. There are also reduction instructions for plain integer
add and min/max, and operations that sum into a pair of 32bit registers
together treated as a 64bit integer (even though MVE does not have a
plain 64bit addition instruction). So giving the vectorizer the ability
to use these instructions both enables us to vectorize at higher
bitwidths, and to vectorize things we previously could not.
In order to do that we need a way to represent that the reduction
operation, specified with a llvm.experimental.vector.reduce when
vectorizing for Arm, occurs inside the loop not after it like most
reductions. This patch attempts to do that, teaching the vectorizer
about in-loop reductions. It does this through a vplan recipe
representing the reductions that the original chain of reduction
operations is replaced by. Cost modelling is currently just done through
a prefersInloopReduction TTI hook (which follows in a later patch).
Differential Revision: https://reviews.llvm.org/D75069
Unit.Format, Unit.Version and Unit.AddrSize are replaced with
dwarf::FormParams in D84496 to get rid of unnecessary functions
getOffsetSize() and getRefSize(). However, that change makes it
difficult to make AddrSize optional (Optional<uint8_t>). This change
pulls out dwarf::FormParams from DWARFYAML::Unit and use it as a helper
struct in DWARFYAML::emitDebugInfo().
Reviewed By: jhenderson, MaskRay
Differential Revision: https://reviews.llvm.org/D85296
Rather than handling zlib handling manually, use find_package from CMake
to find zlib properly. Use this to normalize the LLVM_ENABLE_ZLIB,
HAVE_ZLIB, HAVE_ZLIB_H. Furthermore, require zlib if LLVM_ENABLE_ZLIB is
set to YES, which requires the distributor to explicitly select whether
zlib is enabled or not. This simplifies the CMake handling and usage in
the rest of the tooling.
This is a reland of abb0075 with all followup changes and fixes that
should address issues that were reported in PR44780.
Differential Revision: https://reviews.llvm.org/D79219
LTO builds have been creating invalid DWARF and one of the errors was a file index that was out of bounds. "llvm-dwarfdump --verify" will check all file indexes for line tables already, but there are no checks for the validity of file indexes in attributes.
The verification will verify if there is a DW_AT_decl_file/DW_AT_call_file that:
- there is a line table for the compile unit
- the file index is valid
- the encoding is appropriate
Tests are added that test all of the above conditions.
Differential Revision: https://reviews.llvm.org/D84817
This patch changes the functionality of AsmPrinter to name the basic block end labels as LBB_END${i}_${j}, with ${i} being the identifier for the function and ${j} being the identifier for the basic block. The new naming scheme is consistent with how basic block labels are named (.LBB${i}_{j}), and how function end symbol are named (.Lfunc_end${i}) and helps to write stronger tests for the upcoming patch for BB-Info section (as proposed in https://lists.llvm.org/pipermail/llvm-dev/2020-July/143512.html). The end label is used with basicblock-labels (BB-Info section in future) and basicblock-sections to compute the size of basic blocks and basic block sections, respectively. For BB sections, the section containing the entry basic block will not have a BB end label since it already gets the function end-label.
This label is cached for every basic block (CachedEndMCSymbol) like the label for the basic block (CachedMCSymbol).
Differential Revision: https://reviews.llvm.org/D83885
MSan removes readnone/readonly and similar attributes from callees,
because after MSan instrumentation those attributes no longer apply.
This change removes the attributes from call sites, as well.
Failing to do this may cause DSE of paramTLS stores before calls to
readonly/readnone functions.
Differential Revision: https://reviews.llvm.org/D85259
This reverts commit e9761688e41cb979a1fa6a79eb18145a75104933. It breaks the build:
```
~/src/llvm-project/llvm/lib/Analysis/IVDescriptors.cpp:868:10: error: no viable conversion from returned value of type 'SmallVector<[...], 8>' to function return type 'SmallVector<[...], 4>'
return ReductionOperations;
```
These were implementation detail, but become necessary for generic data
copying.
Also added const variations to them, and move assignment, since we had a
move ctor (and the move assignment helps in a subsequent patch).
Differential Revision: https://reviews.llvm.org/D85262
Arm MVE has multiple instructions such as VMLAVA.s8, which (in this
case) can take two 128bit vectors, sign extend the inputs to i32,
multiplying them together and sum the result into a 32bit general
purpose register. So taking 16 i8's as inputs, they can multiply and
accumulate the result into a single i32 without any rounding/truncating
along the way. There are also reduction instructions for plain integer
add and min/max, and operations that sum into a pair of 32bit registers
together treated as a 64bit integer (even though MVE does not have a
plain 64bit addition instruction). So giving the vectorizer the ability
to use these instructions both enables us to vectorize at higher
bitwidths, and to vectorize things we previously could not.
In order to do that we need a way to represent that the reduction
operation, specified with a llvm.experimental.vector.reduce when
vectorizing for Arm, occurs inside the loop not after it like most
reductions. This patch attempts to do that, teaching the vectorizer
about in-loop reductions. It does this through a vplan recipe
representing the reductions that the original chain of reduction
operations is replaced by. Cost modelling is currently just done through
a prefersInloopReduction TTI hook (which follows in a later patch).
Differential Revision: https://reviews.llvm.org/D75069
The `decode_relrs` helper is declared as:
`Expected<std::vector<Elf_Rel>> decode_relrs(Elf_Relr_Range relrs) const;`
it never returns an error though and hence can be simplified to return
a vector.
Differential revision: https://reviews.llvm.org/D85302
This quietly disabled use of zlib on Windows even when building with
-DLLVM_ENABLE_ZLIB=FORCE_ON.
> Rather than handling zlib handling manually, use find_package from CMake
> to find zlib properly. Use this to normalize the LLVM_ENABLE_ZLIB,
> HAVE_ZLIB, HAVE_ZLIB_H. Furthermore, require zlib if LLVM_ENABLE_ZLIB is
> set to YES, which requires the distributor to explicitly select whether
> zlib is enabled or not. This simplifies the CMake handling and usage in
> the rest of the tooling.
>
> This is a reland of abb0075 with all followup changes and fixes that
> should address issues that were reported in PR44780.
>
> Differential Revision: https://reviews.llvm.org/D79219
This reverts commit 10b1b4a231a485f1711d576e6131f6755e008abe and follow-ups
64d99cc6abed78c00a2a7863b02ce54911a5264f and
f9fec0447e12da9e8cf4b628f6d45f4941e7d182.
Currently, we only test the `--stackmap` option here:
https://github.com/llvm/llvm-project/blob/master/llvm/test/Object/stackmap-dump.test
it uses a precompiled MachO binary currently and I've found no tests for this option for ELF.
The implementation also has issues. For example, it might assert on a wrong version
of the .llvm-stackmaps section. Or it might crash on an empty or truncated section.
This patch introduces a new tools/llvm-readobj/ELF test file as well as implements a few
basic checks to catch simple crashes/issues
It also eliminates `unwrapOrError` calls in `printStackMap()`.
Differential revision: https://reviews.llvm.org/D85208
Fixed the commit c35585e209efe69e2233bdc5ecd23bed7b735ba3.
This is a fix for the bug 46098 where PostDominatorTree
is unexpectedly changed by InstCombine's branch swapping
transformation.
This patch fixes PostDomTree builder. While looking for
the furthest away node in a reverse unreachable subgraph
this patch runs DFS with successors in their function order.
This order is indifferent to the order of successors, so is
the furthest away node.
Reviewers: kuhar, nikic, lebedev.ri
Differential Revision: https://reviews.llvm.org/D84763
This reverts commit c35585e209efe69e2233bdc5ecd23bed7b735ba3.
The MLIR is broken with this patch, reproduce by adding
-DLLVM_ENABLE_PROJECTS=mlir to the cmake configuration and
build `ninja tools/mlir/lib/IR/CMakeFiles/obj.MLIRIR.dir/Dominance.cpp.o`
This is one more NFC part extracted from D79485. Normal and SCC based loops have very different representation and have to be handled separatly each time we deal with loops. D79485 is going to introduce much more extensive use of loops what will be problematic with out this change.
Reviewed By: davidxl
Differential Revision: https://reviews.llvm.org/D84838
This is another fix for the bug 46098 where PostDominatorTree
is unexpectedly changed by InstCombine's branch swapping
transformation.
This patch fixes PostDomTree builder. While looking for
the furthest away node in a reverse unreachable subgraph
this patch runs DFS with successors in their function order.
This order is indifferent to the order of successors, so is
the furthest away node.
Reviewers: kuhar, nikic, lebedev.ri
Differential Revision: https://reviews.llvm.org/D84763
Added a mechanism to check the element type, get the total element
count, and the size of an element.
Differential Revision: https://reviews.llvm.org/D85250