GNU uses a different hashing function compared to the sys-V standard
function already provided in libObject. This is already used internally
in LLD for generating synthetic sections. This patch simply extracts
this definition and makes it availible to other users of `libObject`.
This is done in preparation for supporting symbol name lookups via the
GNU hash table.
Reviewed By: MaskRay, jhenderson
Differential Revision: https://reviews.llvm.org/D132696
CGP uses a raw `getInstructionCost(I, TargetTransformInfo::TCK_SizeAndLatency) >= TCC_Expensive` check to see if its better to move an expensive instruction used in a select behind a branch instead.
This is causing issues with upcoming improvements to TCK_SizeAndLatency costs on X86 as we need to use TCK_SizeAndLatency as an uop count (so its compatible with various target-specific buffer sizes - see D132288), but we can have instructions that have a low TCK_SizeAndLatency value but should still be treated as 'expensive' (FDIV for example) - by adding a isExpensiveToSpeculativelyExecute wrapper we can keep the current behaviour but still add an x86 override in a future patch when the cost tables are updated to compensate.
Current implementation of registerModuleReference() function not only
"registers" module reference, but also clones referenced module
(inside loadClangModule()). That may lead to cloning the module with
incorrect options (registerModuleReference() examines module references
and additionally accumulates MaxDwarfVersion and accel tables info).
Since accumulated options may differ from the current values,
it is incorrect to clone modules before options are fully accumulated.
This patch separates "cloning" code from "registering" code. So,
that accumulating option is done in the "registering stage" and
"cloning" is done after all modules are registered and options accumulated.
It also adds a callback for loaded compile units which can be used for
D132755 and D132371(to allow doing options accumulation outside
of DWARFLinker).
Differential Revision: https://reviews.llvm.org/D133047
LEGALPOS appears to only be used by LegalizeVectorOps. It needs
to point at a vector operand. Stores need to point at the second
operand since the result and the first operand are MVT::Other.
Reductions need to point at the second operand since the result
and the first operand are scalsrs.
Reviewed By: rogfer01
Differential Revision: https://reviews.llvm.org/D133048
I'm not sure how much to add to the description as we've tried to allow targets to interpret the TargetCostKind enums in their own way. But we need to make it clear that certain cost kinds need to match threshold numbers used by various passes (and vice-versa when passes are determining a cost-benefit threshold).
I'm not keen on the "The weighted sum of size and latency" description, but its very difficult to come up with anything else that's suitably generic (e.g. X86 will use uop counts here to easily work with LoopMicroOpBufferSize thresholds, even though high latency fdiv/fsqrt instructions still often have low uop counts).
Differential Revision: https://reviews.llvm.org/D132288
[MachineFunctionPass] Support -filter-passes for -print-changed
-filter-passes specifies a `PassID` (a lower-case dashed-separated pass name,
also used by -print-after, -stop-after, etc) instead of a CamelCasePass.
`-filter-passes=CamelCaseNewPMPass` seems like a workaround for new PM passes before
we can use lower-case dashed-separated pass names (as used by `-passes=`).
Example:
```
# getPassName() is "IRTranslator". PassID is "irtranslator"
llc -mtriple=aarch64 -print-changed -filter-passes=irtranslator < print-changed-machine.ll
```
Close https://github.com/llvm/llvm-project/issues/57453
Reviewed By: aeubanks
Differential Revision: https://reviews.llvm.org/D133055
The patch adds the support of OpenCL and SPIR-V built-in types. It also
implements ExtInst selection and adds spv_unreachable and spv_alloca
intrinsics which improve the generation of the corresponding SPIR-V code.
Five LIT tests are included to demonstrate the improvement.
Differential Revision: https://reviews.llvm.org/D132648
Co-authored-by: Aleksandr Bezzubikov <zuban32s@gmail.com>
Co-authored-by: Michal Paszkowski <michal.paszkowski@outlook.com>
Co-authored-by: Andrey Tretyakov <andrey1.tretyakov@intel.com>
Co-authored-by: Konrad Trifunovic <konrad.trifunovic@intel.com>
Although we only currently have one error produced in this function I am
working on changes right now that add some more. This change makes the
error location more accurate.
Differential Revision: https://reviews.llvm.org/D133016
VP_STORE has a Chain for operand 0, so the LEGALPOS should be 1.
VP_STORE is always considered Legal for MVT::Other. So I suspect this
was causing vp_store to be ignored by LegalizeVectorOps and instead
handled in LegalizeDAG.
VP_LOAD is Custom expanded in LegalizeVectorOps for RISC-V.
Differential Revision: https://reviews.llvm.org/D132972
Printing support enables the production of more useful error messages in unit testing e.g. when using matchers such as `UnorderedElementsAre()` to inspect the contents of a `StringMap`.
Reviewed By: gribozavr2, sgatev, ymandel
Differential Revision: https://reviews.llvm.org/D132747
This adds support for backtrace generation to the llvm-symbolizer markup
filter, which is likely the largest use case.
Reviewed By: peter.smith
Differential Revision: https://reviews.llvm.org/D132706
This flag instructs dyld to make the segment read-only after fixups have
been performed.
I'm not sure why this flag is needed, as on macOS 13 beta at least,
__DATA_CONST is read-only even without this flag; but ld64 sets it as
well.
Differential Revision: https://reviews.llvm.org/D133010
This also modifies llvm-readobj to be more future-proof when printing
the guard FIDs table by calculating the entry size correctly according
to MS docs.
Reviewed By: rnk
Differential Revision: https://reviews.llvm.org/D132924
Transforms occasionally want to insert an instruction directly
after the definition point of a value. This involves quite a few
different edge cases, e.g. for phi nodes the next insertion point
is not the next instruction, and for invokes and callbrs its not
even in the same block. Additionally, the insertion point may not
exist at all if catchswitch is involved.
This adds a general Instruction::getInsertionPointAfterDef() API to
implement the necessary logic. For now it is used in two places
where this should be mostly NFC. I will follow up with additional
uses where this fixes specific bugs in the existing implementations.
Differential Revision: https://reviews.llvm.org/D129660
This section stores 32-bit `__TEXT` segment offsets of initializer
functions, and is used instead of `__mod_init_func` when chained fixups
are enabled.
Storing the offsets lets us avoid emitting fixups for the initializers.
Differential Revision: https://reviews.llvm.org/D132947
Also, some local variables were renamed in accordance with the code
style as well as `std::tie` occurrences and `.first`/`.second` member
uses were replaced with structure bindings.
Differential Revision: https://reviews.llvm.org/D132806
Current implementation promotes a non-cold function in the SampleFDO profile
into a hot function in the FDO profile. This is too aggressive. This patch
promotes a hot functions in the SampleFDO profile into a hot function, and a
warm function in SampleFDO into a warm function in FDO.
Differential Revision: https://reviews.llvm.org/D132601
This patch has the following changes:
(1) Handling of internal linkage functions (static functions)
Static functions in FDO have a prefix of source file name, while they do not
have one in SampleFDO. Current implementation does not handle this and we are
not updating the profile for static functions. This patch fixes this.
(2) Handling of -funique-internal-linakge-symbols
Again this is for the internal linkage functions. Option
-funique-internal-linakge-symbols can now be applied to both FDO and SampleFDO
compilation. When it is used, it demangles internal linkage function names and
adds a hash value as the postfix.
When both SampleFDO and FDO profiles use this option, or both
not use this option, changes in (1) should handle this.
Here we also handle when the SampleFDO profile using this option while FDO
profile not using this option, or vice versa.
There is one case where this patch won't work: If one of the profiles used
mangled name and the other does not. For example, if the SampleFDO profile
uses clang c-compiler and without -funique-internal-linakge-symbols, while
the FDO profile uses -funique-internal-linakge-symbols. The SampleFDO profile
contains unmangled names while the FDO profile contains mangled names. If
both profiles use c++ compiler, this won't happen. We think this use case
is rare and does not justify the effort to fix.
Differential Revision: https://reviews.llvm.org/D132600
Mostly just modeled after vp.fneg except there is a
"functional instruction" for fneg while fabs is always an
intrinsic.
Reviewed By: fakepaper56
Differential Revision: https://reviews.llvm.org/D132793