As described in [1][2], `-mtune=` is used to select the type of target
microarchitecture, defaults to the value of `-march`. The set of
possible values should be a superset of `-march` values. Currently
possible values of `-march=` and `-mtune=` are `native`, `loongarch64`
and `la464`.
D136146 has supported `-march={loongarch64,la464}` and this patch adds
support for `-march=native` and `-mtune=`.
A new ProcessorModel called `loongarch64` is defined in LoongArch.td
to support `-mtune=loongarch64`.
`llvm::sys::getHostCPUName()` returns `generic` on unknown or future
LoongArch CPUs, e.g. the not yet added `la664`, leading to
`llvm::LoongArch::isValidArchName()` failing to parse the arch name.
In this case, use `loongarch64` as the default arch name for 64-bit
CPUs.
Two preprocessor macros are defined based on user-provided `-march=`
and `-mtune=` options and the defaults.
- __loongarch_arch
- __loongarch_tune
Note that, to work with `-fno-integrated-cc1` we leverage cc1 options
`-target-cpu` and `-tune-cpu` to pass driver options `-march=` and
`-mtune=` respectively because cc1 needs these information to define
macros in `LoongArchTargetInfo::getTargetDefines`.
[1]: https://github.com/loongson/LoongArch-Documentation/blob/2023.04.20/docs/LoongArch-toolchain-conventions-EN.adoc
[2]: https://github.com/loongson/la-softdev-convention/blob/v0.1/la-softdev-convention.adoc
Reviewed By: xen0n, wangleiat, steven_wu, MaskRay
Differential Revision: https://reviews.llvm.org/D155824
Don't access leaf 7 subleaf 1 unless subleaf 0 says it is
supported via EAX.
Intel documentation says invalid subleaves return 0. We had been
relying on that behavior instead of checking the max sublef number.
It appears that some Sandy Bridge CPUs return at least the subleaf 0
EDX value for subleaf 1. Best guess is that this is a bug in a
microcode patch since all of the bits we're seeing set in EDX were
introduced after Sandy Bridge was originally released.
This is causing avxvnniint16 to be incorrectly enabled with -march=native
on these CPUs.
Reviewed By: pengfei, anna
Differential Revision: https://reviews.llvm.org/D156963
This reverts commit c56514f21b2cf08eaa7ac3a57ba4ce403a9c8956. This
commit adds global state that is shared between clang driver and clang
cc1, which is not correct when clang is used with `-fno-integrated-cc1`
option (no integrated cc1). The -march and -mtune option needs to be
properly passed through cc1 command-line and stored in TargetInfo.
As described in [1][2], `-mtune=` is used to select the type of target
microarchitecture, defaults to the value of `-march`. The set of
possible values should be a superset of `-march` values. Currently
possible values of `-march=` and `-mtune=` are `native`, `loongarch64`
and `la464`.
D136146 has supported `-march={loongarch64,la464}` and this patch adds
support for `-march=native` and `-mtune=`.
A new ProcessorModel called `loongarch64` is defined in LoongArch.td
to support `-mtune=loongarch64`.
`llvm::sys::getHostCPUName()` returns `generic` on unknown or future
LoongArch CPUs, e.g. the not yet added `la664`, leading to
`llvm::LoongArch::isValidArchName()` failing to parse the arch name.
In this case, use `loongarch64` as the default arch name for 64-bit
CPUs.
And these two preprocessor macros are defined:
- __loongarch_arch
- __loongarch_tune
[1]: https://github.com/loongson/LoongArch-Documentation/blob/2023.04.20/docs/LoongArch-toolchain-conventions-EN.adoc
[2]: https://github.com/loongson/la-softdev-convention/blob/v0.1/la-softdev-convention.adoc
Reviewed By: xen0n, wangleiat
Differential Revision: https://reviews.llvm.org/D155824
As described in [1][2], `-mtune=` is used to select the type of target
microarchitecture, defaults to the value of `-march`. The set of
possible values should be a superset of `-march` values. Currently
possible values of `-march=` and `-mtune=` are `native`, `loongarch64`
and `la464`.
D136146 has supported `-march={loongarch64,la464}` and this patch adds
support for `-march=native` and `-mtune=`.
A new ProcessorModel called `loongarch64` is defined in LoongArch.td
to support `-mtune=loongarch64`.
`llvm::sys::getHostCPUName()` returns `generic` on unknown or future
LoongArch CPUs, e.g. the not yet added `la664`, leading to
`llvm::LoongArch::isValidArchName()` failing to parse the arch name.
In this case, use `loongarch64` as the default arch name for 64-bit
CPUs.
And these two preprocessor macros are defined:
- __loongarch_arch
- __loongarch_tune
[1]: https://github.com/loongson/LoongArch-Documentation/blob/2023.04.20/docs/LoongArch-toolchain-conventions-EN.adoc
[2]: https://github.com/loongson/la-softdev-convention/blob/v0.1/la-softdev-convention.adoc
Differential Revision: https://reviews.llvm.org/D155824
The bug happens when you build e.g. an x64_64;arm64 JIT with
LLVM_HOST_TRIPLE=x86_64-apple-macos, and then run it on an apple-m1 not under
Rosetta. In that case, sys::getProcessTriple() will return an x86_64 triple,
not an arm64 one.
Differential revision: https://reviews.llvm.org/D138449
This refactor patch means to remove CPU_SPECIFIC* MACROs in X86TargetParser.def
and move those information into ProcInfo of X86TargetParser.cpp. Since these
two files both maintain a table with redundant info such as cpuname and its
features supported. CPU_SPECIFIC* MACROs define some different information. This
patch dealt with them in these ways when moving:
1.mangling
This is now moved to Mangling in ProcInfo and directly initialized at array of
Processors. CPUs don't support cpu_dispatch/specific are assigned '\0' as
mangling.
2.CPU alias
The alias cpu will also be initialized in array of Processors, its attributes
will be same as its alias target cpu. Same feature list, same mangling.
3.TUNE_NAME
Before my change, some cpu names support cpu_dispatch/specific are not
supported in X86.td, which means optimizer/backend doesn't recognize them. So
they use a different TUNE_NAME to generate in IR. In this patch, I added these
missing cpu support at X86.td by utilizing existing Features and XXXTunings, so
that each cpu name can directly use its own name as TUNE_NAME to be supported
by optimizer/backend.
4.Feature list
The feature list of one CPU maintained in X86TargetParser.def is not same as
the one in X86TargetParser.cpp. It only maintains part of features of one CPU
(features defined by X86_FEATURE_COMPAT). While X86TargetParser.cpp maintains
a complete one. This patch abandons the feature list maintained by CPU_SPECIFIC*
MACROs because assigning a CPU with a complete one doesn't affect the
functionality of cpu_dispatch/specific.
Except these four info, since some of CPUs supported by cpu_dispatch/specific
doesn's support clang options like -march, -mtune before, this patch also kept
this behavior still by adding another member OnlyForCPUDispatchSpecific in
ProcInfo.
Reviewed By: pengfei, RKSimon
Differential Revision: https://reviews.llvm.org/D151696
SubtargetFeature.h is currently part of MC while it doesn't depend on
anything in MC. Since some LLVM components might have the need to work
with target features without necessarily needing MC, it might be
worthwhile to move SubtargetFeature.h to a different location. This will
reduce the dependencies of said components.
Note that I choose TargetParser as the destination because that's where
Triple lives and SubtargetFeatures feels related to that.
This issues came up during a JITLink review (D149522). JITLink would
like to avoid a dependency on MC while still needing to store target
features.
Reviewed By: MaskRay, arsenm
Differential Revision: https://reviews.llvm.org/D150549
HIP texture/image support is optional as some devices
do not have image instructions. A macro __HIP_NO_IMAGE_SUPPORT
is defined for device not supporting images (d0448aa4c4/docs/reference/kernel_language.md (L426) )
Currently the macro is defined by HIP header based on predefined macros
for GPU, e.g __gfx*__ , which is error prone. This patch let clang
emit the predefined macro.
Reviewed by: Matt Arsenault, Artem Belevich
Differential Revision: https://reviews.llvm.org/D151349
Predefine __AMDGCN_CUMODE__ as 1 or 0 when compilation assumes CU or WGP modes.
If WGP mode is not supported, ignore -mno-cumode and emit a warning.
This is needed for implementing device functions like __smid
(312dff7b79/include/hip/amd_detail/amd_device_functions.h (L957))
Reviewed by: Matt Arsenault, Artem Belevich, Brian Sumner
Differential Revision: https://reviews.llvm.org/D145343
Similar for RISCV::parseTuneCPU and RISCV::checkTuneCPUKind.
This makes the CPUKind enum no longer part of the API. It wasn't
providing much value. It was only used to pass between the two
functions.
By removing it, we can remove a dependency on a tablegen generated
file from the RISCVTargetParser.h file. Then we can remove a
dependency from several CMakeLists.txt.
This function was used to force +64bit or -64bit into the feature
string basd on -mcpu.
It's not entirely clear to me why this was needed. This informationo
is redundant with the triple. RISCVTargetInfo::initFeatureMap
independently recomputes it from the triple for the feature map.
It is ultimately needed in the backend, but that should be handled
by RISCVSubtarget processing the CPU name.
Differential Revision: https://reviews.llvm.org/D147978
Scope of changes:
1) Extract common code between Clang and Flang for parsing AMDGPU features
2) Add function which adds implicit target features for AMDGPU as Clang does
3) Add AMDGPU target as one of valid targets for Flang
Differential Revision: https://reviews.llvm.org/D145579
Reviewed By: yaxunl, awarzynski
Since FreeBSD 8 / 9 support was dropped from the Driver there is room to simplify
things with the ARM handling.
The exception model handling function can be removed.
EABI is now the default.
Reviewed By: dim
Differential Revision: https://reviews.llvm.org/D144823
Global Constructors are disallowed in the Support library. The
TargetParser library is likely to go along with the Support library in
most uses, because it contains llvm::Triple, so lets pre-emptively add
the same rule, rather than getting caught out later.
Differential Revision: https://reviews.llvm.org/D145249
Fuchsia's ABI always reserves the x18 (s2) register for the
ShadowCallStack ABI, even when -fsanitize=shadow-call-stack is
not enabled.
Reviewed By: phosek
Differential Revision: https://reviews.llvm.org/D143355