//===-- AArch64TargetParser - Parser for AArch64 features -------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file implements a target parser to recognise AArch64 hardware features
// such as FPU/CPU/ARCH and extension names.
//
//===----------------------------------------------------------------------===//
#include "llvm/TargetParser/AArch64TargetParser.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/TargetParser/ARMTargetParserCommon.h"
#include "llvm/TargetParser/Triple.h"
#include <cctype>
#include <vector>
#define DEBUG_TYPE "target-parser"
using namespace llvm;
#define EMIT_FMV_INFO
#include "llvm/TargetParser/AArch64TargetParserDef.inc"
static unsigned checkArchVersion(llvm::StringRef Arch) {
if (Arch.size() >= 2 && Arch[0] == 'v' && std::isdigit(Arch[1]))
return (Arch[1] - 48);
return 0;
}
const AArch64::ArchInfo *AArch64::getArchForCpu(StringRef CPU) {
// Note: this now takes cpu aliases into account
std::optional<CpuInfo> Cpu = parseCpu(CPU);
if (!Cpu)
return nullptr;
return &Cpu->Arch;
}
std::optional<AArch64::ArchInfo> AArch64::ArchInfo::findBySubArch(StringRef SubArch) {
for (const auto *A : AArch64::ArchInfos)
if (A->getSubArch() == SubArch)
return *A;
return {};
}
uint64_t AArch64::getCpuSupportsMask(ArrayRef<StringRef> FeatureStrs) {
uint64_t FeaturesMask = 0;
for (const StringRef &FeatureStr : FeatureStrs) {
if (auto Ext = parseFMVExtension(FeatureStr))
FeaturesMask |= (1ULL << Ext->Bit);
}
return FeaturesMask;
}
bool AArch64::getExtensionFeatures(
const AArch64::ExtensionBitset &InputExts,
std::vector<StringRef> &Features) {
for (const auto &E : Extensions)
/* INVALID and NONE have no feature name. */
if (InputExts.test(E.ID) && !E.PosTargetFeature.empty())
Features.push_back(E.PosTargetFeature);
return true;
}
StringRef AArch64::resolveCPUAlias(StringRef Name) {
for (const auto &A : CpuAliases)
if (A.AltName == Name)
return A.Name;
return Name;
}
StringRef AArch64::getArchExtFeature(StringRef ArchExt) {
bool IsNegated = ArchExt.starts_with("no");
StringRef ArchExtBase = IsNegated ? ArchExt.drop_front(2) : ArchExt;
if (auto AE = parseArchExtension(ArchExtBase)) {
assert(!(AE.has_value() && AE->NegTargetFeature.empty()));
return IsNegated ? AE->NegTargetFeature : AE->PosTargetFeature;
}
return StringRef();
}
void AArch64::fillValidCPUArchList(SmallVectorImpl<StringRef> &Values) {
for (const auto &C : CpuInfos)
Values.push_back(C.Name);
for (const auto &Alias : CpuAliases)
// The apple-latest alias is backend only, do not expose it to clang's -mcpu.
if (Alias.AltName != "apple-latest")
Values.push_back(Alias.AltName);
llvm::sort(Values);
}
bool AArch64::isX18ReservedByDefault(const Triple &TT) {
return TT.isAndroid() || TT.isOSDarwin() || TT.isOSFuchsia() ||
TT.isOSWindows() || TT.isOHOSFamily();
}
// Allows partial match, ex. "v8a" matches "armv8a".
const AArch64::ArchInfo *AArch64::parseArch(StringRef Arch) {
Arch = llvm::ARM::getCanonicalArchName(Arch);
if (checkArchVersion(Arch) < 8)
return {};
StringRef Syn = llvm::ARM::getArchSynonym(Arch);
for (const auto *A : ArchInfos) {
if (A->Name.ends_with(Syn))
return A;
}
return {};
}
std::optional<AArch64::ExtensionInfo>
AArch64::parseArchExtension(StringRef ArchExt) {
if (ArchExt.empty())
return {};
for (const auto &A : Extensions) {
if (ArchExt == A.UserVisibleName || ArchExt == A.Alias)
return A;
}
return {};
}
std::optional<AArch64::FMVInfo> AArch64::parseFMVExtension(StringRef FMVExt) {
// FIXME introduce general alias functionality, or remove this exception.
if (FMVExt == "rdma")
FMVExt = "rdm";
for (const auto &I : getFMVInfo()) {
if (FMVExt == I.Name)
return I;
}
return {};
}
std::optional<AArch64::ExtensionInfo>
AArch64::targetFeatureToExtension(StringRef TargetFeature) {
for (const auto &E : Extensions)
if (TargetFeature == E.PosTargetFeature)
return E;
return {};
}
std::optional<AArch64::CpuInfo> AArch64::parseCpu(StringRef Name) {
// Resolve aliases first.
Name = resolveCPUAlias(Name);
// Then find the CPU name.
for (const auto &C : CpuInfos)
if (Name == C.Name)
return C;
return {};
}
void AArch64::PrintSupportedExtensions() {
outs() << "All available -march extensions for AArch64\n\n"
<< " " << left_justify("Name", 20)
<< left_justify("Architecture Feature(s)", 55)
<< "Description\n";
for (const auto &Ext : Extensions) {
// Extensions without a feature cannot be used with -march.
if (!Ext.UserVisibleName.empty() && !Ext.PosTargetFeature.empty()) {
outs() << " "
<< format(Ext.Description.empty() ? "%-20s%s\n" : "%-20s%-55s%s\n",
Ext.UserVisibleName.str().c_str(),
Ext.ArchFeatureName.str().c_str(),
Ext.Description.str().c_str());
}
}
}
void
AArch64::printEnabledExtensions(const std::set<StringRef> &EnabledFeatureNames) {
outs() << "Extensions enabled for the given AArch64 target\n\n"
<< " " << left_justify("Architecture Feature(s)", 55)
<< "Description\n";
std::vector<ExtensionInfo> EnabledExtensionsInfo;
for (const auto &FeatureName : EnabledFeatureNames) {
std::string PosFeatureName = '+' + FeatureName.str();
if (auto ExtInfo = targetFeatureToExtension(PosFeatureName))
EnabledExtensionsInfo.push_back(*ExtInfo);
}
std::sort(EnabledExtensionsInfo.begin(), EnabledExtensionsInfo.end(),
[](const ExtensionInfo &Lhs, const ExtensionInfo &Rhs) {
return Lhs.ArchFeatureName < Rhs.ArchFeatureName;
});
for (const auto &Ext : EnabledExtensionsInfo) {
outs() << " "
<< format("%-55s%s\n",
Ext.ArchFeatureName.str().c_str(),
Ext.Description.str().c_str());
}
}
const llvm::AArch64::ExtensionInfo &
lookupExtensionByID(llvm::AArch64::ArchExtKind ExtID) {
for (const auto &E : llvm::AArch64::Extensions)
if (E.ID == ExtID)
return E;
llvm_unreachable("Invalid extension ID");
}
void AArch64::ExtensionSet::enable(ArchExtKind E) {
if (Enabled.test(E))
return;
LLVM_DEBUG(llvm::dbgs() << "Enable " << lookupExtensionByID(E).UserVisibleName << "\n");
Touched.set(E);
Enabled.set(E);
// Recursively enable all features that this one depends on. This handles all
// of the simple cases, where the behaviour doesn't depend on the base
// architecture version.
for (auto Dep : ExtensionDependencies)
if (E == Dep.Later)
enable(Dep.Earlier);
// Special cases for dependencies which vary depending on the base
// architecture version.
if (BaseArch) {
// +fp16 implies +fp16fml for v8.4A+, but not v9.0-A+
if (E == AEK_FP16 && BaseArch->is_superset(ARMV8_4A) &&
!BaseArch->is_superset(ARMV9A))
enable(AEK_FP16FML);
// For v8.4A+ and v9.0A+, +crypto also enables +sha3 and +sm4.
if (E == AEK_CRYPTO && BaseArch->is_superset(ARMV8_4A)) {
enable(AEK_SHA3);
enable(AEK_SM4);
}
}
}
void AArch64::ExtensionSet::disable(ArchExtKind E) {
// -crypto always disables aes, sha2, sha3 and sm4, even for architectures
// where the latter two would not be enabled by +crypto.
if (E == AEK_CRYPTO) {
disable(AEK_AES);
disable(AEK_SHA2);
disable(AEK_SHA3);
disable(AEK_SM4);
}
if (!Enabled.test(E))
return;
LLVM_DEBUG(llvm::dbgs() << "Disable " << lookupExtensionByID(E).UserVisibleName << "\n");
Touched.set(E);
Enabled.reset(E);
// Recursively disable all features that depends on this one.
for (auto Dep : ExtensionDependencies)
if (E == Dep.Earlier)
disable(Dep.Later);
}
void AArch64::ExtensionSet::addCPUDefaults(const CpuInfo &CPU) {
LLVM_DEBUG(llvm::dbgs() << "addCPUDefaults(" << CPU.Name << ")\n");
BaseArch = &CPU.Arch;
AArch64::ExtensionBitset CPUExtensions = CPU.getImpliedExtensions();
for (const auto &E : Extensions)
if (CPUExtensions.test(E.ID))
enable(E.ID);
}
void AArch64::ExtensionSet::addArchDefaults(const ArchInfo &Arch) {
LLVM_DEBUG(llvm::dbgs() << "addArchDefaults(" << Arch.Name << ")\n");
BaseArch = &Arch;
for (const auto &E : Extensions)
if (Arch.DefaultExts.test(E.ID))
enable(E.ID);
}
bool AArch64::ExtensionSet::parseModifier(StringRef Modifier,
const bool AllowNoDashForm) {
LLVM_DEBUG(llvm::dbgs() << "parseModifier(" << Modifier << ")\n");
size_t NChars = 0;
// The "no-feat" form is allowed in the target attribute but nowhere else.
if (AllowNoDashForm && Modifier.starts_with("no-"))
NChars = 3;
else if (Modifier.starts_with("no"))
NChars = 2;
bool IsNegated = NChars != 0;
StringRef ArchExt = Modifier.drop_front(NChars);
if (auto AE = parseArchExtension(ArchExt)) {
if (AE->PosTargetFeature.empty() || AE->NegTargetFeature.empty())
return false;
if (IsNegated)
disable(AE->ID);
else
enable(AE->ID);
return true;
}
return false;
}
void AArch64::ExtensionSet::reconstructFromParsedFeatures(
const std::vector<std::string> &Features,
std::vector<std::string> &NonExtensions) {
assert(Touched.none() && "Bitset already initialized");
for (auto &F : Features) {
bool IsNegated = F[0] == '-';
if (auto AE = targetFeatureToExtension(F)) {
Touched.set(AE->ID);
if (IsNegated)
Enabled.reset(AE->ID);
else
Enabled.set(AE->ID);
continue;
}
NonExtensions.push_back(F);
}
}
void AArch64::ExtensionSet::dump() const {
std::vector<StringRef> Features;
toLLVMFeatureList(Features);
for (StringRef F : Features)
llvm::outs() << F << " ";
llvm::outs() << "\n";
}
const AArch64::ExtensionInfo &
AArch64::getExtensionByID(AArch64::ArchExtKind ExtID) {
return lookupExtensionByID(ExtID);
}