This utility allows more efficient start of pattern match.
Often MachineInstr(MI) is available and instead of using
mi_match(MI.getOperand(0).getReg(), MRI, ...) followed by
MRI.getVRegDef(Reg) that gives back MI we now use
mi_match(MI, MRI, ...).
Differential Revision: https://reviews.llvm.org/D99735
This reverts commit 0ce723cb228bc1d1a0f5718f3862fb836145a333.
D76519 was not quite NFC. If we see a CFISection::Debug function before a
CFISection::EH one (-fexceptions -fno-asynchronous-unwind-tables), we may
incorrectly pick CFISection::Debug and emit a `.cfi_sections .debug_frame`.
We should use .eh_frame instead.
This scenario is untested.
When vectorising for AArch64 targets if you specify the SVE attribute
we automatically then treat masked loads and stores as legal. Also,
since we have no cost model for masked memory ops we believe it's
cheap to use the masked load/store intrinsics even for fixed width
vectors. This can lead to poor code quality as the intrinsics will
currently be scalarised in the backend. This patch adds a basic
cost model that marks fixed-width masked memory ops as significantly
more expensive than for scalable vectors.
Tests for the cost model are added here:
Transforms/LoopVectorize/AArch64/masked-op-cost.ll
Differential Revision: https://reviews.llvm.org/D100745
In terms of readability, the `enum CFIMoveType` didn't better document what it
intends to convey i.e. the type of CFI section that gets emitted.
Reviewed By: dblaikie, MaskRay
Differential Revision: https://reviews.llvm.org/D76519
In cases when ScalarizationCostPassed has no value, UINT_MAX is actually used
for cost estimation in `return ScalarCalls * ScalarCost + ScalarizationCost`.
Reviewed By: sdesmalen
Differential Revision: https://reviews.llvm.org/D101099
ConstantFoldingMIRBuilder was an experiment which is not used for
anything. The constant folding functionality is now part of
CSEMIRBuilder.
Differential Revision: https://reviews.llvm.org/D101050
The Linux kernel objtool diagnostic `call without frame pointer save/setup`
arise in multiple instrumentation passes (asan/tsan/gcov). With the mechanism
introduced in D100251, it's trivial to respect the command line
-m[no-]omit-leaf-frame-pointer/-f[no-]omit-frame-pointer, so let's do it.
Fix: https://github.com/ClangBuiltLinux/linux/issues/1236 (tsan)
Fix: https://github.com/ClangBuiltLinux/linux/issues/1238 (asan)
Also document the function attribute "frame-pointer" which is long overdue.
Differential Revision: https://reviews.llvm.org/D101016
It is proper to relax non-negative limitation of step_vector.
Also this patch adds more combines for step_vector:
(sub X, step_vector(C)) -> (add X, step_vector(-C))
Differential Revision: https://reviews.llvm.org/D100812
This patch relaxes the requirement that the STEP_VECTOR step constant
must be of a type at least as large as the vector element type. This
does not permit its use on targets which have legal vector element types
larger than the largest legal scalar type, such as i64 vectors on RV32.
As such, the requirement has been loosened so that the step operand must
be any scalar type so long as the constant immediate is non-negative and
the value fits inside the vector element type.
This limits combining optimizations in certain circumstances but in
practice it's unlikely to be a hindrance.
Reviewed By: paulwalker-arm
Differential Revision: https://reviews.llvm.org/D100660
Flipping the default value of SkipPseudoOp to true for those MIR APIs to favor maximum performance. Note that certain spots like branch folding and MIR if-conversion is are disabled for better counts quality. For these two optimizations, this is a no-diff change.
The counts quality with SPEC2017 before/after this change is unchanged.
Reviewed By: wmi
Differential Revision: https://reviews.llvm.org/D100332
When the ProcResGroup has BufferSize=0,
1. if there is a subunit in the list of write resources for the
scheduling class, do not attempt to schedule the ProcResGroup.
2. if there is not a subunit in the list of write resources for the
scheduling class, choose a subunit to use instead of the ProcResGroup.
3. having both the ProcResGroup and any of its subunits in the resources
implied by a InstRW is not supported.
Used to model parallel uses from a pool of resources.
Differential Revision: https://reviews.llvm.org/D98976
These constraints are machine agnostic; there's no reason to handle
these per-arch. If arches don't support these constraints, then they
will fail elsewhere during instruction selection. We don't need virtual
calls to look these up; TargetLowering::getInlineAsmMemConstraint should
only be overridden by architectures with additional unique memory
constraints.
Reviewed By: echristo, MaskRay
Differential Revision: https://reviews.llvm.org/D100416
It turns out we actually import a bunch of selection code for intrinsics. The
imported code checks that the register banks on the G_INTRINSIC instruction
are correct. If so, it goes ahead and selects it.
This adds code to AArch64RegisterBankInfo to allow us to correctly determine
register banks on intrinsics which have known register bank constraints.
For now, this only handles @llvm.aarch64.neon.uaddlv. This is necessary for
porting AArch64TargetLowering::LowerCTPOP.
Also add a utility for getting the intrinsic ID from a G_INTRINSIC instruction.
This seems a little nicer than having to know about how intrinsic instructions
are structured.
Differential Revision: https://reviews.llvm.org/D100398
Such attributes can either be unset, or set to "true" or "false" (as string).
throughout the codebase, this led to inelegant checks ranging from
if (Fn->getFnAttribute("no-jump-tables").getValueAsString() == "true")
to
if (Fn->hasAttribute("no-jump-tables") && Fn->getFnAttribute("no-jump-tables").getValueAsString() == "true")
Introduce a getValueAsBool that normalize the check, with the following
behavior:
no attributes or attribute set to "false" => return false
attribute set to "true" => return true
Differential Revision: https://reviews.llvm.org/D99299
When we pass a AArch64 Homogeneous Floating-Point
Aggregate (HFA) argument with increased alignment
requirements, for example
struct S {
__attribute__ ((__aligned__(16))) double v[4];
};
Clang uses `[4 x double]` for the parameter, which is passed
on the stack at alignment 8, whereas it should be at
alignment 16, following Rule C.4 in
AAPCS (https://github.com/ARM-software/abi-aa/blob/master/aapcs64/aapcs64.rst#642parameter-passing-rules)
Currently we don't have a way to express in LLVM IR the
alignment requirements of the function arguments. The align
attribute is applicable to pointers only, and only for some
special ways of passing arguments (e..g byval). When
implementing AAPCS32/AAPCS64, clang resorts to dubious hacks
of coercing to types, which naturally have the needed
alignment. We don't have enough types to cover all the
cases, though.
This patch introduces a new use of the stackalign attribute
to control stack slot alignment, when and if an argument is
passed in memory.
The attribute align is left as an optimizer hint - it still
applies to pointer types only and pertains to the content of
the pointer, whereas the alignment of the pointer itself is
determined by the stackalign attribute.
For byval arguments, the stackalign attribute assumes the
role, previously perfomed by align, falling back to align if
stackalign` is absent.
On the clang side, when passing arguments using the "direct"
style (cf. `ABIArgInfo::Kind`), now we can optionally
specify an alignment, which is emitted as the new
`stackalign` attribute.
Patch by Momchil Velikov and Lucas Prates.
Differential Revision: https://reviews.llvm.org/D98794
After d5c5cf5ce8d921fc8c5e1b608c298a1ffa688d37, it should work fine
for aarch64 on COFF too. (It was disabled when the patch was
(re)applied in e96df3e531f506eea75da0f13d0f8aa9a267f975, pending
that fix.)
Lookup tables generate non PIC-friendly code, which requires dynamic relocation as described in:
https://bugs.llvm.org/show_bug.cgi?id=45244
This patch adds a new pass that converts lookup tables to relative lookup tables to make them PIC-friendly.
Differential Revision: https://reviews.llvm.org/D94355
This patch removes all uses of `std::iterator`, which was deprecated in C++17.
While this isn't currently an issue while compiling LLVM, it's useful for those using LLVM as a library.
For some reason there're a few places that were seemingly able to use `std` functions unqualified, which no longer works after this patch. I've updated those places, but I'm not really sure why it worked in the first place.
Reviewed By: MaskRay
Differential Revision: https://reviews.llvm.org/D67586
This reverts commit cca9b5985c0c7e3c34da7f2db7cc8e7e707b0e2e.
Buildbot reported an error for CodeGen/AArch64/machine-combiner-fmul-dup.mir:
*** Bad machine code: Virtual register killed in block, but needed live out. ***
- function: indexed_2s
- basic block: %bb.0 entry (0x640fee8)
Virtual register %7 is used after the block.
*** Bad machine code: Virtual register defs don't dominate all uses. ***
- function: indexed_2s
- v. register: %7
LLVM ERROR: Found 2 machine code errors.
