For the declaration like below:
int __tag1 * __tag1 __tag2 *g
Commit 41860e602aaa ("BPF: Support btf_type_tag attribute")
implemented the following encoding:
VAR(g) -> __tag1 --> __tag2 -> pointer -> __tag1 -> pointer -> int
Some further experiments with linux btf_type_tag support, esp.
with generating attributes in vmlinux.h, and also some internal
discussion showed the following format is more desirable:
VAR(g) -> pointer -> __tag2 -> __tag1 -> pointer -> __tag1 -> int
The format makes it similar to other modifier like 'const', e.g.,
const int *g
which has encoding VAR(g) -> PTR -> CONST -> int
Differential Revision: https://reviews.llvm.org/D113496
Implement support for loading the stack canary from a memory location held in
the TLS register, with an optional offset applied. This is used by the Linux
kernel to implement per-task stack canaries, which is impossible on SMP systems
when using a global variable for the stack canary.
Reviewed By: nickdesaulniers
Differential Revision: https://reviews.llvm.org/D112768
combineMulToPMADDWD is currently limited to legal types, but there's no reason why we can't handle any larger type that the existing SplitOpsAndApply code can use to split to legal X86ISD::VPMADDWD ops.
This also exposed a missed opportunity for pre-SSE41 targets to handle SEXT ops from types smaller than vXi16 - without PMOVSX instructions these will always be expanded to unpack+shifts, so we can cheat and convert this into a ZEXT(SEXT()) sequence to make it a valid PMADDWD op.
Differential Revision: https://reviews.llvm.org/D110995
This patch adds DUP+FMUL => FMUL_indexed pattern to InstCombiner.
FMUL_indexed is normally selected during instruction selection, but it
does not work in cases when VDUP and VMUL are in different basic
blocks.
Differential Revision: https://reviews.llvm.org/D99662
This patch merges FoldConstantVectorArithmetic back into FoldConstantArithmetic.
Like FoldConstantVectorArithmetic we now handle vector ops with any operand count, but we currently still only handle binops for scalar types - this can be improved in future patches - in particular some common unary/trinary ops still have poor constant folding.
There's one change in functionality causing test changes - FoldConstantVectorArithmetic bails early if the build/splat vector isn't all constant (with some undefs) elements, but FoldConstantArithmetic doesn't - it instead attempts to fold the scalar nodes and bails if they fail to regenerate a constant/undef result, allowing some additional identity/undef patterns to be handled.
Differential Revision: https://reviews.llvm.org/D113300
Currently, LOAD_STACK_GUARD on ARM is only implemented for Mach-O targets, and
other targets rely on the generic support which may result in spilling of the
stack canary value or address, or may cause it to be kept in a callee save
register across function calls, which means they essentially get spilled as
well, only by the callee when it wants to free up this register.
So let's implement LOAD_STACK GUARD for other targets as well. This ensures
that the load of the stack canary is rematerialized fully in the epilogue.
This code was split off from
D112768: [ARM] implement support for TLS register based stack protector
for which it is a prerequisite.
Reviewed By: nickdesaulniers
Differential Revision: https://reviews.llvm.org/D112811
InstCombine converts range tests of the form (X > C1 && X < C2) or
(X < C1 || X > C2) into checks of the form (X + C3 < C4) or
(X + C3 > C4). It is possible to express all range tests in either
of these forms (with different choices of constants), but currently
neither of them is considered canonical. We may have equivalent
range tests using either ult or ugt.
This proposes to canonicalize all range tests to use ult. An
alternative would be to canonicalize to either ult or ugt depending
on the specific constants involved -- e.g. in practice we currently
generate ult for && style ranges and ugt for || style ranges when
going through the insertRangeTest() helper. In fact, the "clamp like"
fold was relying on this, which is why I had to tweak it to not
assume whether inversion is needed based on just the predicate.
Proof: https://alive2.llvm.org/ce/z/_SP_rQ
Differential Revision: https://reviews.llvm.org/D113366
[NFC] As part of using inclusive language within the llvm project, this patch
replaces master with main in file/directory paths in llvm LIT tests.
Reviewed By: bjope
Differential Revision: https://reviews.llvm.org/D113190
When inserting an unpacked FP subvector into a packed vector we
can simply cast the unpacked value into a packed value, since
both types are legal for SVE. We can then use this as the input
for the UZP instruction. This avoids us expanding the operation
by going through the stack.
Differential Revision: https://reviews.llvm.org/D113270
We already have patterns for fptosi and fptoui plus fmul to fixed point
convert, this adds equivalent patterns for fptosi.sat and fptoui.sat,
which should apply equally well for the legal saturating variants.
Differential Revision: https://reviews.llvm.org/D113199
Performing the rearrangement for add/sub and mul instructions to match the madd/msub pattern
Reviewed By: dmgreen, sdesmalen, david-arm
Differential Revision: https://reviews.llvm.org/D111862
For v8i16 shuffle patterns that are lowered with AND+PACKUS, check to see if the sources are from a 256-bit vector and perform the masking using BLENDW at the 256-bit level.
With the test changes we can see more examples of duplicate XMM/YMM zero vectors (PR26018) :(
This rewrites the fcvt-fixed.ll test case to be separate functions, not
one large function with volatile global stores. It also adds fp16 and
fptoi.sat testing at the same time.
Be more consistent in the naming convention for the various RET instructions to specify in terms of bitwidth.
Helps prevent future scheduler model mismatches like those that were only addressed in D44687.
Differential Revision: https://reviews.llvm.org/D113302
In TwoAddressInstructionPass::processTiedPairs with
-early-live-intervals, update any preexisting physreg live intervals,
as well as virtreg live intervals. By default (without
-precompute-phys-liveness) physreg live intervals only exist for
registers that are live-in to some basic block.
Differential Revision: https://reviews.llvm.org/D113191
This is the 'or' sibling for the fold added with:
D113212
https://alive2.llvm.org/ce/z/tgnp7K
Note that neither of these transforms is poison-safe,
but it does not seem to matter at this level. We have
had the scalar version of D113212 for a long time, so
this is just making optimizer behavior consistent.
We do not have the scalar version of *this* fold,
however, so that is another follow-up.
Try simplify G_UADDO with 8 or 16 bit operands to wide G_ADD and TBNZ if
result is only used in the no-overflow case. It is restricted to cases
where we know that the high-bits of the operands are 0. If there's an
overflow, then the the 9th or 17th bit must be set, which can be checked
using TBNZ.
Reviewed By: paquette
Differential Revision: https://reviews.llvm.org/D111888
This improves our type coverage. We were only testing integer
insert and extract before due to the FP types not being enabled for
arguments and returns.
Differential Revision: https://reviews.llvm.org/D113217
(X s< 0) ? Y : 0 --> (X s>> BW-1) & Y
We canonicalize to the icmp+select form in IR, and we already have this fold
for scalar select in SDAG, so I think it's an oversight that we don't have
the fold for vectors. It seems neutral for AArch64 and saves some instructions
on x86.
Whether we should also have the sibling folds for the inverse condition or
all-ones true value may depend on target-specific factors such as whether
there's an "and-not" instruction.
Differential Revision: https://reviews.llvm.org/D113212
When created a UUNPKLO/HI node with an undef input then the
output should also be undef. I've added a target DAG combine
function to ensure we avoid creating an unnecessary uunpklo/hi
instruction.
Differential Revision: https://reviews.llvm.org/D113266
A pattern has selected wrong uaddlv MI. It should be as below.
uaddv(uaddlp(v8i8)) ==> uaddlv(v8i8)
Differential Revision: https://reviews.llvm.org/D113263
This symbol is defined in libc.so so it is definitely not DSO-Local.
Marking it as such causes problems on some platforms (such as PowerPC).
Differential revision: https://reviews.llvm.org/D109090
To constant fold bitwise logic ops where we've legalized constant build vectors to a different type (e.g. v2i64 -> v4i32), this patch adds a basic ability to peek through the bitcasts and perform the constant fold on the inner operands.
The MVE predicate v2i64 regressions will be addressed by future support for basic v2i64 type support.
One of the yak shaving fixes for D113192....
Differential Revision: https://reviews.llvm.org/D113202
In TwoAddressInstructionPass::processTiedPairs with
-early-live-intervals, update any preexisting physreg live intervals,
as well as virtreg live intervals. By default (without
-precompute-phys-liveness) physreg live intervals only exist for
registers that are live-in to some basic block.
Differential Revision: https://reviews.llvm.org/D113191
ppc_fp128 and fp128 are both 128-bit floating point types. However, we
can't do conversion between them now, since trunc/ext are not allowed
for same-size fp types.
This patch adds two new intrinsics: llvm.ppc.convert.f128.to.ppcf128 and
llvm.convert.ppcf128.to.f128, to support such conversion.
Reviewed By: shchenz
Differential Revision: https://reviews.llvm.org/D109421
Constraint `*m` should be used when the address of a variable is passed
as a value. And the constraint is missing for MS inline assembly when sth
is written to the address of the variable.
The missing would cause FE delete the definition of the static varible,
and then result in "undefined reference to xxx" issue.
Reviewed By: xiangzhangllvm
Differential Revision: https://reviews.llvm.org/D113096
A new kind BTF_KIND_TYPE_TAG is defined. The tags associated
with a pointer type are emitted in their IR order as modifiers.
For example, for the following declaration:
int __tag1 * __tag1 __tag2 *g;
The BTF type chain will look like
VAR(g) -> __tag1 --> __tag2 -> pointer -> __tag1 -> pointer -> int
In the above "->" means BTF CommonType.Type which indicates
the point-to type.
Differential Revision: https://reviews.llvm.org/D113222
This patch changes the AMDGPU_Gfx calling convention. It defines the SGPR registers s[4:29] as callee-save and leaves some SGPRs usable for callers. The intention is to avoid unneccessary s_mov instructions for arguments the caller would otherwise save and restore in these registers.
Reviewed By: sebastian-ne
Differential Revision: https://reviews.llvm.org/D111637