Summary:
The complex DOT instructions perform a dot-product on quadtuplets from
two source vectors and the resuling wide real or wide imaginary is
accumulated into the destination register. The instructions come in two
forms:
Vector form, e.g.
cdot z0.s, z1.b, z2.b, #90 - complex dot product on four 8-bit quad-tuplets,
accumulating results in 32-bit elements. The
complex numbers in the second source vector are
rotated by 90 degrees.
cdot z0.d, z1.h, z2.h, #180 - complex dot product on four 16-bit quad-tuplets,
accumulating results in 64-bit elements.
The complex numbers in the second source
vector are rotated by 180 degrees.
Indexed form, e.g.
cdot z0.s, z1.b, z2.b[3], #0 - complex dot product on four 8-bit quad-tuplets,
with specified quadtuplet from second source vector,
accumulating results in 32-bit elements.
cdot z0.d, z1.h, z2.h[1], #0 - complex dot product on four 16-bit quad-tuplets,
with specified quadtuplet from second source vector,
accumulating results in 64-bit elements.
The specification can be found here:
https://developer.arm.com/docs/ddi0602/latest
Reviewed By: SjoerdMeijer, rovka
Differential Revision: https://reviews.llvm.org/D61903
llvm-svn: 360870
Summary:
Add support for the following instructions:
* MUL (indexed and unpredicated vectors forms)
* SQDMULH (indexed and unpredicated vectors forms)
* SQRDMULH (indexed and unpredicated vectors forms)
* SMULH (unpredicated, predicated form added in SVE)
* UMULH (unpredicated, predicated form added in SVE)
* PMUL (unpredicated)
The specification can be found here:
https://developer.arm.com/docs/ddi0602/latest
Reviewed By: SjoerdMeijer, rovka
Differential Revision: https://reviews.llvm.org/D61902
llvm-svn: 360867
Summary:
This patch adds support for the following instructions:
MLA mul-add, writing addend (Zda = Zda + Zn * Zm[idx])
MLS mul-sub, writing addend (Zda = Zda + -Zn * Zm[idx])
Predicated forms of these instructions were added in SVE.
The specification can be found here:
https://developer.arm.com/docs/ddi0602/latest
Reviewed By: rovka
Differential Revision: https://reviews.llvm.org/D61514
llvm-svn: 360682
Summary:
The ".dword" directive is a synonym for ".xword" and is used used
by klibc, a minimalistic libc subset for initramfs.
Reviewers: t.p.northover, nickdesaulniers
Reviewed By: nickdesaulniers
Subscribers: nickdesaulniers, javed.absar, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D61719
llvm-svn: 360381
This fixes the https://bugs.llvm.org/show_bug.cgi?id=41355.
Previously with -r we printed relocation section name instead of the target section name.
It was like this: "RELOCATION RECORDS FOR [.rel.text]"
Now it is: "RELOCATION RECORDS FOR [.text]"
Also when relocation target section has more than one relocation section,
we did not combine the output. Now we do.
Differential revision: https://reviews.llvm.org/D61312
llvm-svn: 360143
-t is --symbols in llvm-readobj but --section-details (unimplemented) in readelf.
The confusing option should not be used since we aim for improving
compatibility.
Keep just one llvm-readobj -t use case in test/tools/llvm-readobj/symbols.test
llvm-svn: 359661
We use both -long-option and --long-option in tests. Switch to --long-option for consistency.
In the "llvm-readelf" mode, -long-option is discouraged as it conflicts with grouped short options and it is not accepted by GNU readelf.
While updating the tests, change llvm-readobj -s to llvm-readobj -S to reduce confusion ("s" is --section-headers in llvm-readobj but --symbols in llvm-readelf).
llvm-svn: 359649
This patch adds aliases for element sizes .B/.H/.S to the
AND/ORR/EOR/BIC bitwise logical instructions. The assembler now accepts
these instructions with all element sizes up to 64-bit (.D). The
preferred disassembly is .D.
llvm-svn: 359457
This patch fixes .arch_extension directive parsing to handle a wider
range of architecture extension options. The existing parser was parsing
extensions as an identifier which breaks for extensions containing a
"-", such as the "tlb-rmi" extension.
The extension is now parsed as a string. This is consistent with the
extension parsing in the .arch and .cpu directive parsing.
Patch by Cullen Rhodes (c-rhodes)
Reviewed By: SjoerdMeijer
Differential Revision: https://reviews.llvm.org/D60118
llvm-svn: 357677
The latest MTE specification adds register Xt to the STG instruction family:
STG [Xn, #offset] -> STG Xt, [Xn, #offset]
The tag written to memory is taken from Xt rather than Xn.
Also, the LDG instruction also was changed to read return address from Xt:
LDG Xt, [Xn, #offset].
This patch includes those changes and tests.
Specification is at: https://developer.arm.com/docs/ddi0596/c
Differential Revision: https://reviews.llvm.org/D60188
llvm-svn: 357583
This instruction writes a block of allocation tags
and stores zero to the associated data locations.
It differs from STGM by 1 bit and has the same
arguments.
The specification can be found here:
https://developer.arm.com/docs/ddi0596/c
Differential Revision: https://reviews.llvm.org/D60065
llvm-svn: 357397
The STGV/LDGV instructions were replaced with
STGM/LDGM. The encodings remain the same but there
is no longer writeback so there are no unpredictable
encodings to check for.
The specfication can be found here:
https://developer.arm.com/docs/ddi0596/c
Differential Revision: https://reviews.llvm.org/D60064
llvm-svn: 357395
The latest version of the MTE spec added a system
register 'GMID_EL1'. It contains the block size used
by the LDGM and STGM instructions and is read only.
The specification can be found here:
https://developer.arm.com/docs/ddi0596/c
llvm-svn: 357392
This patch fixes an assembler bug that allowed SVE vector registers to contain a
type suffix when not expected. The SVE unpredicated movprfx instruction is the
only instruction affected.
The following are examples of what was previously valid:
movprfx z0.b, z0.b
movprfx z0.b, z0.s
movprfx z0, z0.s
These instructions are now erroneous.
Patch by Cullen Rhodes (c-rhodes)
Reviewed By: sdesmalen
Differential Revision: https://reviews.llvm.org/D59636
llvm-svn: 357094
A quirk of the v8.1a spec is that when the writeback regiser for an atomic
read-modify-write instruction is wzr/xzr, the instruction no longer enforces
acquire ordering. However, it's still written with the misleading 'a' mnemonic.
So this adds an annotation when disassembling such instructions, mentioning the
change.
llvm-svn: 353303
N_FUNC_COLD is a new MachO symbol attribute. It's a hint to the linker
to order a symbol towards the end of its section, to improve locality.
Example:
```
void a1() {}
__attribute__((cold)) void a2() {}
void a3() {}
int main() {
a1();
a2();
a3();
return 0;
}
```
A linker that supports N_FUNC_COLD will order _a2 to the end of the text
section. From `nm -njU` output, we see:
```
_a1
_a3
_main
_a2
```
Differential Revision: https://reviews.llvm.org/D57190
llvm-svn: 352227
Follow up patch of rL350385, for adding predres
command line option. This patch renames the
feature as to keep it aligned with the option
passed by/to clang
Differential Revision: https://reviews.llvm.org/D56484
llvm-svn: 350702
SB (Speculative Barrier) is only mandatory from 8.5
onwards but is optional from Armv8.0-A. This patch adds a command
line option to enable SB, as it was previously only possible to
enable by selecting -march=armv8.5-a.
This patch also moves to FeatureSB the old FeatureSpecRestrict.
Reviewers: pbarrio, olista01, t.p.northover, LukeCheeseman
Differential Revision: https://reviews.llvm.org/D55921
llvm-svn: 350126
We have to treat constructs like this as if they were "symbolic", to use
the correct codepath to resolve them. This mostly only affects movz
etc. because the other uses of classifySymbolRef conservatively treat
everything that isn't a constant as if it were a symbol.
Differential Revision: https://reviews.llvm.org/D55906
llvm-svn: 349800
This requires a bit more code than other fixups, to distingush between
abs_g0/abs_g1/etc. Actually, I think some of the other fixups are
missing some checks, but I won't try to address that here.
I haven't seen any real-world code that uses a construct like this, but
it clearly should work, and we're considering using it in the
implementation of localescape/localrecover on Windows (see
https://reviews.llvm.org/D53540). I've verified that binutils produces
the same code as llvm-mc for the testcase.
This currently doesn't include support for the *_s variants (that
requires a bit more work to set the opcode).
Differential Revision: https://reviews.llvm.org/D55896
llvm-svn: 349799
Summary:
Emit COFF header when printing out the function. This is important as the
header contains two important pieces of information: the storage class for the
symbol and the symbol type information. This bit of information is required for
the linker to correctly identify the type of symbol that it is dealing with.
This patch mimics X86 and ARM COFF behavior for function header emission.
Reviewers: rnk, mstorsjo, compnerd, TomTan, ssijaric
Reviewed By: mstorsjo
Subscribers: dmajor, javed.absar, kristof.beyls, llvm-commits
Differential Revision: https://reviews.llvm.org/D55535
llvm-svn: 348875
This patch splits backend features currently
hidden behind architecture versions.
For example, currently the only way to activate
complex numbers extension is targeting an v8.3
architecture, where after the patch this extension
can be added separately.
This refactoring is required by the new command lines proposal:
http://lists.llvm.org/pipermail/llvm-dev/2018-September/126346.html
Reviewers: DavidSpickett, olista01, t.p.northover
Subscribers: kristof.beyls, bryanpkc, javed.absar, pbarrio
Differential revision: https://reviews.llvm.org/D54633
--
It was reverted in rL348249 due a build bot failure in one of the
regression tests:
http://lab.llvm.org:8011/builders/llvm-clang-x86_64-expensive-checks-win/builds/14386
The problem seems to be that FileCheck behaves
different in windows and linux. This new patch
splits the test file in multiple,
and does more exact pattern matching attempting
to circumvent the issue.
llvm-svn: 348493
Summary:
SSBS (Speculative Store Bypass Safe) is only mandatory from 8.5
onwards but is optional from Armv8.0-A. This patch adds a command
line option to enable SSBS, as it was previously only possible to
enable by selecting -march=armv8.5-a.
Similar patch upstream in GNU binutils:
https://sourceware.org/ml/binutils/2018-09/msg00274.html
Reviewers: olista01, samparker, aemerson
Reviewed By: samparker
Subscribers: javed.absar, kristof.beyls, kristina, llvm-commits
Differential Revision: https://reviews.llvm.org/D54629
llvm-svn: 348137
This patch splits backend features currently
hidden behind architecture versions.
For example, currently the only way to activate
complex numbers extension is targeting an v8.3
architecture, where after the patch this extension
can be added separately.
This refactoring is required by the new command lines proposal:
http://lists.llvm.org/pipermail/llvm-dev/2018-September/126346.html
Reviewers: DavidSpickett, olista01, t.p.northover
Subscribers: kristof.beyls, bryanpkc, javed.absar, pbarrio
Differential revision: https://reviews.llvm.org/D54633
llvm-svn: 348121
Summary:
This renames the IsParsingMSInlineAsm member variable of AsmLexer to
LexMasmIntegers and moves it up to MCAsmLexer. This is the only behavior
controlled by that variable. I added a public setter, so that it can be
set from outside or from the llvm-mc command line. We may need to
arrange things so that users can get this behavior from clang, but
that's future work.
I also put additional hex literal lexing functionality under this flag
to fix PR32973. It appears that this hex literal parsing wasn't intended
to be enabled in non-masm-style blocks.
Now, masm integers (0b1101 and 0ABCh) work in __asm blocks from clang,
but 0b label references work when using .intel_syntax in standalone .s
files.
However, 0b label references will *not* work from __asm blocks in clang.
They will work from GCC inline asm blocks, which it sounds like is
important for Crypto++ as mentioned in PR36144.
Essentially, we only lex masm literals for inline asm blobs that use
intel syntax. If the .intel_syntax directive is used inside a gnu-style
inline asm statement, masm literals will not be lexed, which is
compatible with gas and llvm-mc standalone .s assembly.
This fixes PR36144 and PR32973.
Reviewers: Gerolf, avt77
Subscribers: eraman, hiraditya, llvm-commits
Differential Revision: https://reviews.llvm.org/D53535
llvm-svn: 345189
The ARM64 elf emitter would omit printing data
symbol for zero filled constant data. This patch
overrides the emitFill method as to enforce that
the symbol is correctly printed.
Differential revision: https://reviews.llvm.org/D53132
llvm-svn: 344248
The following instruction:
> str q28, [x0, #1*6*4*@]
contains a @ which is parsed as an empty symbol. The parser returns true
but has no error, so the assembler continues by ignoring the
instruction.
Differential Revision: https://reviews.llvm.org/D52645
llvm-svn: 343961
This adds new instructions to manipluate tagged pointers, and to load
and store the tags associated with memory.
Patch by Pablo Barrio, David Spickett and Oliver Stannard!
Differential revision: https://reviews.llvm.org/D52490
llvm-svn: 343572
This adds new system registers introduced by the Memory Tagging
extension.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52488
llvm-svn: 343571
The Memory Tagging Extension adds system instructions for data cache
maintenance, implemented as new operands to the DC instruction.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52487
llvm-svn: 343570
This adds two new barrier instructions which can be used to restrict
speculative execution of load instructions.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52483
llvm-svn: 343229
This adds new instructions used by the Branch Target Identification
feature. When this is enabled, these are the only instructions which can
be targeted by indirect branch instructions.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52485
llvm-svn: 343225
This adds some new system registers which can be used to restrict
certain types of speculative execution.
Patch by Pablo Barrio and David Spickett!
Differential revision: https://reviews.llvm.org/D52482
llvm-svn: 343218
This adds two new system registers, used to generate random numbers.
This is an optional extension to v8.5-A, and will be controlled by the
"+rng" modifier of the -march= and -mcpu= options.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52481
llvm-svn: 343217
This adds a new variant of the DC system instruction for persistent
memory.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52480
llvm-svn: 343216
This adds new system instructions which act as barriers to speculative
execution based on earlier execution within a particular execution
context.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52479
llvm-svn: 343214
This is a new barrier which limits speculative execution of the
instructions following it.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52476
llvm-svn: 343211
These are some new variants of the "Floating-point Round to Integral"
family of instructions, which round to the nearest floating-point value
which fits in a 32- or 64-bit integer.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52475
llvm-svn: 343209
These new instructions manipluate the NZCV bits, to convert between the
regular Arm floating-point comare format and an alternative format.
Patch by Pablo Barrio!
Differential revision: https://reviews.llvm.org/D52473
llvm-svn: 343187
This tries to make use of evaluateAsRelocatable in AArch64AsmParser::classifySymbolRef
to parse more complex expressions as relocatable operands. It is hopefully better than
the existing code which only handles Symbol +- Constant.
This allows us to parse more complex adr/adrp, mov, ldr/str and add operands. It also
loosens the requirements on parsing addends in ld/st and mov's and adds a number of
tests.
Differential Revision: https://reviews.llvm.org/D51792
llvm-svn: 342455
This adds the plumbing for the Tiny code model for the AArch64 backend. This,
instead of loading addresses through the normal ADRP;ADD pair used in the Small
model, uses a single ADR. The 21 bit range of an ADR means that the code and
its statically defined symbols need to be within 1MB of each other.
This makes it mostly interesting for embedded applications where we want to fit
as much as we can in as small a space as possible.
Differential Revision: https://reviews.llvm.org/D49673
llvm-svn: 340397
This patch adds system registers for controlling aspects of SVE:
- ZCR_EL1 (r/w) visible at EL1 and EL0.
- ZCR_EL2 (r/w) visible at EL2 and Non-secure EL1 and EL0.
- ZCR_EL3 (r/w) visible at all exception levels.
and a system register identifying SVE:
- ID_AA64ZFR0_EL1 (r) SVE Feature identifier.
Reviewers: SjoerdMeijer, samparker, pbarrio, fhahn, javed.absar
Reviewed By: SjoerdMeijer
Differential Revision: https://reviews.llvm.org/D50885
llvm-svn: 340158
Add +fp16fml feature for new FP16 instructions, which are a
mandatory part of FP16 from v8.4-A and an optional part of FP16
from v8.2-A. It doesn't seem to be possible to model this in
LLVM, but the relationship between the options is handled by
the related clang patch.
In keeping with what I think is the usual practice, the fp16fml
extension is accepted regardless of base architecture version.
Builds on/replaces Sjoerd Meijer's patch to add these instructions at
https://reviews.llvm.org/D49839.
Differential Revision: https://reviews.llvm.org/D50228
llvm-svn: 340013
As a part of adding the tiny codemodel, we need to support ldr's with :got:
relocations on them. This seems to be mostly already done, just needs the
relocation type support.
Differential Revision: https://reviews.llvm.org/D50137
llvm-svn: 338673
Contrary to ELF, we don't add any markers that distinguish data generated
with .long from normal instructions, so the .inst directive only adds
compatibility with assembly that uses it.
Differential Revision: https://reviews.llvm.org/D49935
llvm-svn: 338355
This patch enables instructions that are destructive on their
destination- and first source operand, to be prefixed with a
MOVPRFX instruction.
This patch also adds a variety of tests:
- positive tests for all instructions and forms that accept a
movprfx for either or both predicated and unpredicated forms.
- negative tests for all instructions and forms that do not accept
an unpredicated or predicated movprfx.
- negative tests for the diagnostics that get emitted when a MOVPRFX
instruction is used incorrectly.
This is patch [2/2] in a series to add MOVPRFX instructions:
- Patch [1/2]: https://reviews.llvm.org/D49592
- Patch [2/2]: https://reviews.llvm.org/D49593
Reviewers: rengolin, SjoerdMeijer, samparker, fhahn, javed.absar
Reviewed By: SjoerdMeijer
Differential Revision: https://reviews.llvm.org/D49593
llvm-svn: 338261
The WHILE instructions generate a predicate that is true while the
comparison of the first scalar operand (incremented for each predicate
element) with the second scalar operand is true and false thereafter.
WHILELE While incrementing signed scalar less than or equal to scalar
WHILELO While incrementing unsigned scalar lower than scalar
WHILELS While incrementing unsigned scalar lower than or same as scalar
WHILELT While incrementing signed scalar less than scalar
e.g.
whilele p0.s, x0, x1
generates predicate p0 (for 32bit elements) by incrementing
(signed) x0 and comparing that vector to splat(x1).
llvm-svn: 338211
The instructions added in this patch permit active elements within
a vector to be processed sequentially without unpacking the vector.
PFIRST Set the first active element to true.
PNEXT Find next active element in predicate.
CTERMEQ Compare and terminate loop when equal.
CTERMNE Compare and terminate loop when not equal.
llvm-svn: 338210
This patch adds PFALSE (unconditionally sets all elements of
the predicate to false) and PTEST (set the status flags for the
predicate).
llvm-svn: 338198
This patch adds support for instructions that partition a predicate
based on data-dependent termination conditions in a loop.
BRKA Break after the first true condition
BRKAS Break after the first true condition, setting condition flags
BRKB Break before the first true condition
BRKBS Break before the first true condition, setting condition flags
BRKPA Break after the first true condition, propagating from the
previous partition
BRKPAS Break after the first true condition, propagating from the
previous partition, setting condition flags
BRKPB Break before the first true condition, propagating from the
previous partition
BRKPBS Break before the first true condition, propagating from the
previous partition, setting condition flags
BRKN Propagate break to next partition
BKRNS Propagate break to next partition, setting condition flags
llvm-svn: 338196
This patch adds support for various integer reduction operations:
SADDV signed add reduction to scalar
UADDV unsigned add reduction to scalar
SMAXV signed maximum reduction to scalar
SMINV signed minimum reduction to scalar
UMAXV unsigned maximum reduction to scalar
UMINV unsigned minimum reduction to scalar
ANDV logical AND reduction to scalar
ORV logical OR reduction to scalar
EORV logical EOR reduction to scalar
The reduction is predicated, e.g.
smaxv s0, p0, z1.s
performs a signed maximum reduction on active elements in z1,
and stores the (signed max value) result in s0.
llvm-svn: 338126
This patch adds support for various floating-point
reduction operations:
FADDA strictly-ordered add reduction, accumulating in scalar
FADDV recursive add reduction to scalar
FMAXV recursive max reduction to scalar
FMINV recursive min reduction to scalar
FMAXNMV recursive max number reduction to scalar
FMINNMV recursive min number reduction to scalar
The reduction is predicated, e.g.
fadda d0, p0, d0, z1.d
performs the add-reduction in strict order on active elements
in z1, accumulating into d0.
faddv d0, p0, z1.d
performs the add-reduction (not in strict order)
on active elements in z1, storing the result in d0.
llvm-svn: 338123
This patch adds support for transcendental acceleration
instructions 'FEXPA' (exponential accelerator) and 'FTSSEL'
(trigonometric select coefficient).
llvm-svn: 338121
- Some of the v8.3 pointer authentication instruction inhabit the Hint space
- These instructions can be assembled to hint instructions which act as NOP instructions prior to v8.3
- This patch permits using the hint instructions for all v8a targets
- Also, correct the RETA{A,B} instructions to match the instruction attributes of RET (set isTerminator and isBarrier)
Differential Revision: https://reviews.llvm.org/D49786
llvm-svn: 338029
This adds MC support for the crypto instructions that were made optional
extensions in Armv8.2-A (AArch64 only).
Differential Revision: https://reviews.llvm.org/D49370
llvm-svn: 338010
This patch adds the following instructions:
RBIT reverse bits within each active elemnt (predicated), e.g.
rbit z0.d, p0/m, z1.d
for 8, 16, 32 and 64 bit elements.
REV reverse order of elements in data/predicate vector
(unpredicated), e.g.
rev z0.d, z1.d
rev p0.d, p1.d
for 8, 16, 32 and 64 bit elements.
REVB reverse order of bytes within each active element, e.g.
revb z0.d, p0/m, z1.d
for 16, 32 and 64 bit elements.
REVH reverse order of 16-bit half-words within each active
element, e.g.
revh z0.d, p0/m, z1.d
for 32 and 64 bit elements.
REVW reverse order of 32-bit words within each active element,
e.g.
revw z0.d, p0/m, z1.d
for 64 bit elements.
llvm-svn: 337534
This patch adds support for the following unpredicated
floating-point instructions:
FADD Floating point add
FSUB Floating point subtract
FMUL Floating point multiplication
FTSMUL Floating point trigonometric starting value
FRECPS Floating point reciprocal step
FRSQRTS Floating point reciprocal square root step
The instructions have the following assembly format:
fadd z0.h, z1.h, z2.h
and have variants for 16, 32 and 64-bit FP elements.
llvm-svn: 337383
The signed/unsigned DOT instructions perform a dot-product on
quadtuplets from two source vectors and accumulate the result in
the destination register. The instructions come in two forms:
Vector form, e.g.
sdot z0.s, z1.b, z2.b - signed dot product on four 8-bit quad-tuplets,
accumulating results in 32-bit elements.
udot z0.d, z1.h, z2.h - unsigned dot product on four 16-bit quad-tuplets,
accumulating results in 64-bit elements.
Indexed form, e.g.
sdot z0.s, z1.b, z2.b[3] - signed dot product on four 8-bit quad-tuplets
with specified quadtuplet from second
source vector, accumulating results in 32-bit
elements.
udot z0.d, z1.h, z2.h[1] - dot product on four 16-bit quad-tuplets
with specified quadtuplet from second
source vector, accumulating results in 64-bit
elements.
llvm-svn: 337372
This patch adds the following predicated instructions:
UDIV Unsigned divide active elements
UDIVR Unsigned divide active elements, reverse form.
SDIV Signed divide active elements
SDIVR Signed divide active elements, reverse form.
e.g.
udiv z0.s, p0/m, z0.s, z1.s
(unsigned divide active elements in z0 by z1, store result in z0)
sdivr z0.s, p0/m, z0.s, z1.s
(signed divide active elements in z1 by z0, store result in z0)
llvm-svn: 337369
This patch adds the following instructions:
MUL - multiply vectors, e.g.
mul z0.h, p0/m, z0.h, z1.h
- multiply with immediate, e.g.
mul z0.h, z0.h, #127
SMULH - signed multiply returning high half, e.g.
smulh z0.h, p0/m, z0.h, z1.h
UMULH - unsigned multiply returning high half, e.g.
umulh z0.h, p0/m, z0.h, z1.h
llvm-svn: 337358
This patch completes support for the following floating point
instructions that take FP immediates:
FADD* (addition)
FSUB (subtract)
FSUBR (subtract reverse form)
FMUL* (multiplication)
FMAX* (maximum)
FMAXNM (maximum number)
FMIN (maximum)
FMINNM (maximum number)
All operations are predicated and take a FP immediate operand,
e.g.
fadd z0.h, p0/m, z0.h, #0.5
fmin z0.s, p0/m, z0.s, #1.0
^___________^ (tied)
* Instructions added in a previous patch.
llvm-svn: 337272
The SPLICE instruction splices two vectors into one vector using a
predicate. It copies the active elements from the first vector, and
then fills the remaining elements with the low-numbered elements from
the second vector.
The instruction has the following form, e.g.
splice z0.b, p0, z0.b, z1.b
for 8-bit elements. It also supports 16, 32 and
64-bit elements.
llvm-svn: 337253
This patch adds an instruction that allows extracting
a vector from a pair of vectors, given an immediate index
that describes the element position to extract from.
The instruction has the following assembly:
ext z0.b, z0.b, z1.b, #imm
where #imm is an immediate between 0 and 255.
llvm-svn: 337251
This patch adds support for the following unpack instructions:
- PUNPKLO, PUNPKHI Unpack elements from low/high half and
place into elements of twice their size.
e.g. punpklo p0.h, p0.b
- UUNPKLO, UUNPKHI Unpack elements from low/high half and
SUNPKLO, SUNPKHI place into elements of twice their size
after zero- or sign-extending the values.
e.g. uunpklo z0.h, z0.b
llvm-svn: 336982
The compact instruction shuffles active elements of vector
into lowest numbered elements and sets remaining elements
to zero.
e.g.
compact z0.s, p0, z1.s
llvm-svn: 336789
The LASTB and LASTA instructions extract the last active element,
or element after the last active, from the source vector.
The added variants are:
Scalar:
last(a|b) w0, p0, z0.b
last(a|b) w0, p0, z0.h
last(a|b) w0, p0, z0.s
last(a|b) x0, p0, z0.d
SIMD & FP Scalar:
last(a|b) b0, p0, z0.b
last(a|b) h0, p0, z0.h
last(a|b) s0, p0, z0.s
last(a|b) d0, p0, z0.d
The CLASTB and CLASTA conditionally extract the last or element after
the last active element from the source vector.
The added variants are:
Scalar:
clast(a|b) w0, p0, w0, z0.b
clast(a|b) w0, p0, w0, z0.h
clast(a|b) w0, p0, w0, z0.s
clast(a|b) x0, p0, x0, z0.d
SIMD & FP Scalar:
clast(a|b) b0, p0, b0, z0.b
clast(a|b) h0, p0, h0, z0.h
clast(a|b) s0, p0, s0, z0.s
clast(a|b) d0, p0, d0, z0.d
Vector:
clast(a|b) z0.b, p0, z0.b, z1.b
clast(a|b) z0.h, p0, z0.h, z1.h
clast(a|b) z0.s, p0, z0.s, z1.s
clast(a|b) z0.d, p0, z0.d, z1.d
Please refer to the architecture specification for more details on
the semantics of the added instructions.
llvm-svn: 336783
This patch adds support for the following instructions:
CLS (Count Leading Sign bits)
CLZ (Count Leading Zeros)
CNT (Count non-zero bits)
CNOT (Logically invert boolean condition in vector)
NOT (Bitwise invert vector)
FABS (Floating-point absolute value)
FNEG (Floating-point negate)
All operations are predicated and unary, e.g.
clz z0.s, p0/m, z1.s
- CLS, CLZ, CNT, CNOT and NOT have variants for 8, 16, 32
and 64 bit elements.
- FABS and FNEG have variants for 16, 32 and 64 bit elements.
llvm-svn: 336677
This patch adds support for the following instructions:
CNTB CNTH - Determine the number of active elements implied by
CNTW CNTD the named predicate constant, multiplied by an
immediate, e.g.
cnth x0, vl8, #16
CNTP - Count active predicate elements, e.g.
cntp x0, p0, p1.b
counts the number of active elements in p1, predicated
by p0, and stores the result in x0.
llvm-svn: 336552
This patch completes support for shifts, which include:
- LSL - Logical Shift Left
- LSLR - Logical Shift Left, Reversed form
- LSR - Logical Shift Right
- LSRR - Logical Shift Right, Reversed form
- ASR - Arithmetic Shift Right
- ASRR - Arithmetic Shift Right, Reversed form
- ASRD - Arithmetic Shift Right for Divide
In the following variants:
- Predicated shift by immediate - ASR, LSL, LSR, ASRD
e.g.
asr z0.h, p0/m, z0.h, #1
(active lanes of z0 shifted by #1)
- Unpredicated shift by immediate - ASR, LSL*, LSR*
e.g.
asr z0.h, z1.h, #1
(all lanes of z1 shifted by #1, stored in z0)
- Predicated shift by vector - ASR, LSL*, LSR*
e.g.
asr z0.h, p0/m, z0.h, z1.h
(active lanes of z0 shifted by z1, stored in z0)
- Predicated shift by vector, reversed form - ASRR, LSLR, LSRR
e.g.
lslr z0.h, p0/m, z0.h, z1.h
(active lanes of z1 shifted by z0, stored in z0)
- Predicated shift left/right by wide vector - ASR, LSL, LSR
e.g.
lsl z0.h, p0/m, z0.h, z1.d
(active lanes of z0 shifted by wide elements of vector z1)
- Unpredicated shift left/right by wide vector - ASR, LSL, LSR
e.g.
lsl z0.h, z1.h, z2.d
(all lanes of z1 shifted by wide elements of z2, stored in z0)
*Variants added in previous patches.
llvm-svn: 336547
Support for SVE's TBL instruction for programmable table
lookup/permute using vector of element indices, e.g.
tbl z0.d, { z1.d }, z2.d
stores elements from z1, indexed by elements from z2, into z0.
llvm-svn: 336544
This patch adds support for:
UZP1 Concatenate even elements from two vectors
UZP2 Concatenate odd elements from two vectors
TRN1 Interleave even elements from two vectors
TRN2 Interleave odd elements from two vectors
With variants for both data and predicate vectors, e.g.
uzp1 z0.b, z1.b, z2.b
trn2 p0.s, p1.s, p2.s
llvm-svn: 336531
a deficiency in TableGen that has been addressed in r336334.
[AArch64][SVE] Asm: Support for predicated FP rounding instructions.
This patch also adds instructions for predicated FP square-root and
reciprocal exponent.
The added instructions are:
- FRINTI Round to integral value (current FPCR rounding mode)
- FRINTX Round to integral value (current FPCR rounding mode, signalling inexact)
- FRINTA Round to integral value (to nearest, with ties away from zero)
- FRINTN Round to integral value (to nearest, with ties to even)
- FRINTZ Round to integral value (toward zero)
- FRINTM Round to integral value (toward minus Infinity)
- FRINTP Round to integral value (toward plus Infinity)
- FSQRT Floating-point square root
- FRECPX Floating-point reciprocal exponent
llvm-svn: 336387
This patch also adds instructions for predicated FP square-root and
reciprocal exponent.
The added instructions are:
- FRINTI Round to integral value (current FPCR rounding mode)
- FRINTX Round to integral value (current FPCR rounding mode, signalling inexact)
- FRINTA Round to integral value (to nearest, with ties away from zero)
- FRINTN Round to integral value (to nearest, with ties to even)
- FRINTZ Round to integral value (toward zero)
- FRINTM Round to integral value (toward minus Infinity)
- FRINTP Round to integral value (toward plus Infinity)
- FSQRT Floating-point square root
- FRECPX Floating-point reciprocal exponent
llvm-svn: 336322
This patch adds both a vector and an immediate form, e.g.
- Vector form:
subr z0.h, p0/m, z0.h, z1.h
subtract active elements of z0 from z1, and store the result in z0.
- Immediate form:
subr z0.h, z0.h, #255
subtract elements of z0, and store the result in z0.
llvm-svn: 336274
SVE overloads the AArch64 PSTATE condition flags and introduces
a set of condition code aliases for the assembler. The
details are described in section 2.2 of the architecture
reference manual supplement for SVE.
In short:
SVE alias => AArch64 name
--------------------------
NONE => EQ
ANY => NE
NLAST => HS
LAST => LO
FIRST => MI
NFRST => PL
PMORE => HI
PLAST => LS
TCONT => GE
TSTOP => LT
Reviewers: rengolin, fhahn, SjoerdMeijer, samparker, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D48869
llvm-svn: 336245
Unpredicated FP-multiply of SVE vector with a vector-element given by
vector[index], for example:
fmul z0.s, z1.s, z2.s[0]
which performs an unpredicated FP-multiply of all 32-bit elements in
'z1' with the first element from 'z2'.
This patch adds restricted register classes for SVE vectors:
ZPR_3b (only z0..z7 are allowed) - for indexed vector of 16/32-bit elements.
ZPR_4b (only z0..z15 are allowed) - for indexed vector of 64-bit elements.
Reviewers: rengolin, fhahn, SjoerdMeijer, samparker, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D48823
llvm-svn: 336205
This adds the following system registers:
- RAS registers,
- MPAM registers,
- Activitiy monitor registers,
- Trace Extension registers,
- Timing insensitivity of data processing instructions,
- Enhanced Support for Nested Virtualization.
Differential Revision: https://reviews.llvm.org/D48871
llvm-svn: 336193
Increment/decrement vector by multiple of predicate constraint
element count.
The variants added by this patch are:
- INCH, INCW, INC
and (saturating):
- SQINCH, SQINCW, SQINCD
- UQINCH, UQINCW, UQINCW
- SQDECH, SQINCW, SQINCD
- UQDECH, UQINCW, UQINCW
For example:
incw z0.s, all, mul #4
llvm-svn: 336090
These patches were previously reverted as they led to
buildbot time-outs caused by large switch statement in
printAliasInstr when using UBSan and O3. The issue has
been addressed with a workaround (r335525).
llvm-svn: 336079
Move expected-fail cases from directive-cpu.s to
directive-cpu-err.s. This allows us to remove the 'not' from the
llvm-mc invocation in directive-cpu.s so that this test will fail
in unexpected error cases. It also means that we are not relying
on all stderr coming before any stdout, which seems fragile.
Also make use of CHECK-NEXT to ensure that multiline error messages
really are occuring together.
And add a test to verify that .cpu with an arch version as extension
is rejected.
Differential Revision: https://reviews.llvm.org/D47873
llvm-svn: 335586
These were specifying an architecture version with .cpu directive,
which is invalid. As the error for this case outputs the problem
instruction we were still matching the expectations of FileCheck.
This patch fixes up the LSE tests to do what they seem to intend. A
follow-up patch will tighten up the directive tests.
Differential Revision: https://reviews.llvm.org/D47872
llvm-svn: 335585
This patch uses the DiagnosticPredicate for SVE predicate patterns
to improve their diagnostics, now giving a 'invalid operand' diagnostic
if the type is not an immediate or one of the expected pattern
labels.
Reviewers: samparker, SjoerdMeijer, javed.absar, fhahn
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D48220
llvm-svn: 334983
The variants added by this patch are:
- SQINC signed increment, e.g. sqinc x0, w0, all, mul #4
- SQDEC signed decrement, e.g. sqdec x0, w0, all, mul #4
- UQINC unsigned increment, e.g. uqinc w0, all, mul #4
- UQDEC unsigned decrement, e.g. uqdec w0, all, mul #4
This patch includes asmparser changes to parse a GPR64 as a GPR32 in
order to satisfy the constraint check:
x0 == GPR64(w0)
in:
sqinc x0, w0, all, mul #4
^___^ (must match)
Reviewers: rengolin, fhahn, SjoerdMeijer, samparker, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D47716
llvm-svn: 334980
This patch adds instructions for comparing elements from two vectors, e.g.
cmpgt p0.s, p0/z, z0.s, z1.s
and also adds support for comparing to a 64-bit wide element vector, e.g.
cmpgt p0.s, p0/z, z0.s, z1.d
The patch also contains aliases for certain comparisons, e.g.:
cmple p0.s, p0/z, z0.s, z1.s => cmpge p0.s, p0/z, z1.s, z0.s
cmplo p0.s, p0/z, z0.s, z1.s => cmphi p0.s, p0/z, z1.s, z0.s
cmpls p0.s, p0/z, z0.s, z1.s => cmphs p0.s, p0/z, z1.s, z0.s
cmplt p0.s, p0/z, z0.s, z1.s => cmpgt p0.s, p0/z, z1.s, z0.s
llvm-svn: 334931
Support for SVE's predicated select instructions to select elements
from either vector, both in a data-vector and a predicate-vector
variant.
llvm-svn: 334905
Increment/decrement scalar register by (scaled) element count given by
predicate pattern, e.g. 'incw x0, all, mul #4'.
Reviewers: rengolin, fhahn, SjoerdMeijer, samparker, javed.absar
Reviewed By: SjoerdMeijer
Differential Revision: https://reviews.llvm.org/D47713
llvm-svn: 334838
All COFF targets should use @IMGREL32 relocations for symbol differences
against __ImageBase. Do the same for getSectionForConstant, so that
immediates lowered to globals get merged across TUs.
Patch by Chris January
Differential Revision: https://reviews.llvm.org/D47783
llvm-svn: 334523
For immediates used in DUP instructions that have the range
-128 to 127, or a multiple of 256 in the range -32768 to 32512,
one could argue that when the result element size is 16bits (.h),
the value can be considered both signed and unsigned.
Reviewers: rengolin, fhahn, SjoerdMeijer, samparker, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D47619
llvm-svn: 333873
Print the first indexed element as a FP register, for example:
mov z0.d, z1.d[0]
Is now printed as:
mov z0.d, d1
Next to printing, this patch also adds aliases to parse 'mov z0.d, d1'.
Reviewers: rengolin, fhahn, samparker, SjoerdMeijer, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D47571
llvm-svn: 333872
Unpredicated copy of indexed SVE element to SVE vector,
along with MOV-aliases.
For example:
dup z0.h, z1.h[0]
duplicates the first 16-bit element from z1 to all elements in
the result vector z0.
Reviewers: rengolin, fhahn, samparker, SjoerdMeijer, javed.absar
Reviewed By: SjoerdMeijer
Differential Revision: https://reviews.llvm.org/D47570
llvm-svn: 333871
Predicated copy of floating-point immediate value to SVE vector,
along with MOV-aliases.
Reviewers: rengolin, fhahn, samparker, SjoerdMeijer, javed.absar
Reviewed By: javed.absar
Differential Revision: https://reviews.llvm.org/D47518
llvm-svn: 333869
Predicated copy of possibly shifted immediate value into SVE
vector, along with MOV-aliases.
Reviewers: rengolin, fhahn, samparker, SjoerdMeijer, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D47517
llvm-svn: 333868
Unpredicated copy of floating-point immediate value into SVE vector,
along with MOV-aliases.
Reviewers: rengolin, fhahn, samparker, SjoerdMeijer, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D47482
llvm-svn: 333744
Instead of asserting when using the def_cfa directive with a register
different from fp, fallback on DWARF.
Easily triggered with:
.cfi_def_cfa x1, 32;
rdar://40249694
Differential Revision: https://reviews.llvm.org/D47593
llvm-svn: 333667
Floating point immediate combining a negative sign and
a hexadecimal number, e.g. #-0x0 caused the compiler to crash.
Reviewers: rengolin, fhahn, samparker, SjoerdMeijer, javed.absar
Reviewed By: javed.absar
Differential Revision: https://reviews.llvm.org/D47483
llvm-svn: 333524
This patch addresses the following variants:
- bitmask immediate, e.g. 'and z0.d, z0.d, #0x6'.
- unpredicated data vectors, e.g. 'and z0.d, z1.d, z2.d'.
- predicated data vectors, e.g. 'and z0.d, p0/m, z0.d, z1.d'.
And also several aliases, such as:
- ORN, alias of ORR.
- EON, alias of EOR.
- BIC, alias of AND (immediate variant)
- MOV, alias of ORR (if unpredicated and source register operands are the same)
Reviewers: rengolin, huntergr, fhahn, samparker, SjoerdMeijer, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D47363
llvm-svn: 333414
This patch adds addsub_imm8_opt_lsl_(i8|i16|i32|i64) operands
that are unsigned values in the range 0 to 255. For element widths of
16 bits or higher it may also be a signed multiple of 256 in the
range 0 to 65280.
Note: This also does some refactoring to reuse convenience function
getShiftedVal<shift>(), and now allows AArch64 scalar 'ADD #-4096' to be
accepted to be mapped to SUB #4096.
Reviewers: rengolin, fhahn, samparker, SjoerdMeijer, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D47310
llvm-svn: 333408
Unpredicated copy of optionally-shifted immediate to SVE vector,
along with MOV-aliases.
This patch contains parsing and printing support for
cpy_imm8_opt_lsl_(i8|i16|i32|i64). This operand allows a signed value in
the range -128 to +127. For element widths of 16 bits or higher it may
also be a signed multiple of 256 in the range -32768 to +32512.
For element-width of 8 bits a range of -128 to 255 is accepted, since a copy
of a byte can be considered either signed/unsigned.
Note: This patch renames tryParseAddSubImm() -> tryParseImmWithOptionalShift()
and moves the behaviour of trying to shift a plain immediate by an allowed
shift-value to its addImmWithOptionalShiftOperands() method, so that the
parsing itself is generic and allows immediates from multiple shifted operands.
This is done because an immediate can be divisible by both shifted operands.
Reviewers: rengolin, fhahn, samparker, SjoerdMeijer, javed.absar
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D47309
llvm-svn: 333263
For regular SVE vector operands, this patch introduces a more
sensible diagnostic when the vector has a wrong suffix (e.g. z0.s vs z0.b).
For example:
add z0.s, z1.s, z2.b -> invalid element width
^_____^
mismatch
For the vector-with-shift/extend (e.g. z0.s, uxtw #2) this patch takes
a slightly different approach and instead returns a 'invalid operand'
if the element size is not as expected. This is because the diagnostics
are more specificied to suggest using the right shift/extend suffix. This
is a trade-off not to introduce more operand classes and still provide
useful diagnostics for LD1 and PRF instructions.
For example:
ld1w z1.s, p0/z, [x0, z0.s] -> invalid shift/extend specified, expected 'z[0..31].s, (uxtw|sxtw)'
ld1w z1.d, p0/z, [x0, z0.s] -> invalid operand
^________________^
mismatch
For gather prefetches, both 'z0.s' and 'z0.d' would be allowed:
prfw #0, p0, [x0, z0.s] -> invalid shift/extend specified, expected 'z[0..31].s, (uxtw|sxtw) #2'
prfw #0, p0, [x0, z0.d] -> invalid shift/extend specified, expected 'z[0..31].d, (lsl|uxtw|sxtw) #2'
Without this change, the diagnostic would unnecessarily suggest a
different element size:
prfw #0, p0, [x0, z0.s] -> invalid shift/extend specified, expected 'z[0..31].d, (lsl|uxtw|sxtw) #2'
Reviewers: SjoerdMeijer, aemerson, fhahn, samparker, javed.absar
Reviewed By: SjoerdMeijer
Differential Revision: https://reviews.llvm.org/D46688
llvm-svn: 332483
Cullen Rhodes