llvm-project/llvm/lib/Support/TargetParser.cpp

386 lines
14 KiB
C++

//===-- TargetParser - Parser for target 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 hardware features such as
// FPU/CPU/ARCH names as well as specific support such as HDIV, etc.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/TargetParser.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/ADT/Triple.h"
using namespace llvm;
using namespace AMDGPU;
namespace {
struct GPUInfo {
StringLiteral Name;
StringLiteral CanonicalName;
AMDGPU::GPUKind Kind;
unsigned Features;
};
constexpr GPUInfo R600GPUs[] = {
// Name Canonical Kind Features
// Name
{{"r600"}, {"r600"}, GK_R600, FEATURE_NONE },
{{"rv630"}, {"r600"}, GK_R600, FEATURE_NONE },
{{"rv635"}, {"r600"}, GK_R600, FEATURE_NONE },
{{"r630"}, {"r630"}, GK_R630, FEATURE_NONE },
{{"rs780"}, {"rs880"}, GK_RS880, FEATURE_NONE },
{{"rs880"}, {"rs880"}, GK_RS880, FEATURE_NONE },
{{"rv610"}, {"rs880"}, GK_RS880, FEATURE_NONE },
{{"rv620"}, {"rs880"}, GK_RS880, FEATURE_NONE },
{{"rv670"}, {"rv670"}, GK_RV670, FEATURE_NONE },
{{"rv710"}, {"rv710"}, GK_RV710, FEATURE_NONE },
{{"rv730"}, {"rv730"}, GK_RV730, FEATURE_NONE },
{{"rv740"}, {"rv770"}, GK_RV770, FEATURE_NONE },
{{"rv770"}, {"rv770"}, GK_RV770, FEATURE_NONE },
{{"cedar"}, {"cedar"}, GK_CEDAR, FEATURE_NONE },
{{"palm"}, {"cedar"}, GK_CEDAR, FEATURE_NONE },
{{"cypress"}, {"cypress"}, GK_CYPRESS, FEATURE_FMA },
{{"hemlock"}, {"cypress"}, GK_CYPRESS, FEATURE_FMA },
{{"juniper"}, {"juniper"}, GK_JUNIPER, FEATURE_NONE },
{{"redwood"}, {"redwood"}, GK_REDWOOD, FEATURE_NONE },
{{"sumo"}, {"sumo"}, GK_SUMO, FEATURE_NONE },
{{"sumo2"}, {"sumo"}, GK_SUMO, FEATURE_NONE },
{{"barts"}, {"barts"}, GK_BARTS, FEATURE_NONE },
{{"caicos"}, {"caicos"}, GK_CAICOS, FEATURE_NONE },
{{"aruba"}, {"cayman"}, GK_CAYMAN, FEATURE_FMA },
{{"cayman"}, {"cayman"}, GK_CAYMAN, FEATURE_FMA },
{{"turks"}, {"turks"}, GK_TURKS, FEATURE_NONE }
};
// This table should be sorted by the value of GPUKind
// Don't bother listing the implicitly true features
constexpr GPUInfo AMDGCNGPUs[] = {
// Name Canonical Kind Features
// Name
{{"gfx600"}, {"gfx600"}, GK_GFX600, FEATURE_FAST_FMA_F32},
{{"tahiti"}, {"gfx600"}, GK_GFX600, FEATURE_FAST_FMA_F32},
{{"gfx601"}, {"gfx601"}, GK_GFX601, FEATURE_NONE},
{{"pitcairn"}, {"gfx601"}, GK_GFX601, FEATURE_NONE},
{{"verde"}, {"gfx601"}, GK_GFX601, FEATURE_NONE},
{{"gfx602"}, {"gfx602"}, GK_GFX602, FEATURE_NONE},
{{"hainan"}, {"gfx602"}, GK_GFX602, FEATURE_NONE},
{{"oland"}, {"gfx602"}, GK_GFX602, FEATURE_NONE},
{{"gfx700"}, {"gfx700"}, GK_GFX700, FEATURE_NONE},
{{"kaveri"}, {"gfx700"}, GK_GFX700, FEATURE_NONE},
{{"gfx701"}, {"gfx701"}, GK_GFX701, FEATURE_FAST_FMA_F32},
{{"hawaii"}, {"gfx701"}, GK_GFX701, FEATURE_FAST_FMA_F32},
{{"gfx702"}, {"gfx702"}, GK_GFX702, FEATURE_FAST_FMA_F32},
{{"gfx703"}, {"gfx703"}, GK_GFX703, FEATURE_NONE},
{{"kabini"}, {"gfx703"}, GK_GFX703, FEATURE_NONE},
{{"mullins"}, {"gfx703"}, GK_GFX703, FEATURE_NONE},
{{"gfx704"}, {"gfx704"}, GK_GFX704, FEATURE_NONE},
{{"bonaire"}, {"gfx704"}, GK_GFX704, FEATURE_NONE},
{{"gfx705"}, {"gfx705"}, GK_GFX705, FEATURE_NONE},
{{"gfx801"}, {"gfx801"}, GK_GFX801, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK},
{{"carrizo"}, {"gfx801"}, GK_GFX801, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK},
{{"gfx802"}, {"gfx802"}, GK_GFX802, FEATURE_FAST_DENORMAL_F32},
{{"iceland"}, {"gfx802"}, GK_GFX802, FEATURE_FAST_DENORMAL_F32},
{{"tonga"}, {"gfx802"}, GK_GFX802, FEATURE_FAST_DENORMAL_F32},
{{"gfx803"}, {"gfx803"}, GK_GFX803, FEATURE_FAST_DENORMAL_F32},
{{"fiji"}, {"gfx803"}, GK_GFX803, FEATURE_FAST_DENORMAL_F32},
{{"polaris10"}, {"gfx803"}, GK_GFX803, FEATURE_FAST_DENORMAL_F32},
{{"polaris11"}, {"gfx803"}, GK_GFX803, FEATURE_FAST_DENORMAL_F32},
{{"gfx805"}, {"gfx805"}, GK_GFX805, FEATURE_FAST_DENORMAL_F32},
{{"tongapro"}, {"gfx805"}, GK_GFX805, FEATURE_FAST_DENORMAL_F32},
{{"gfx810"}, {"gfx810"}, GK_GFX810, FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK},
{{"stoney"}, {"gfx810"}, GK_GFX810, FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK},
{{"gfx900"}, {"gfx900"}, GK_GFX900, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK},
{{"gfx902"}, {"gfx902"}, GK_GFX902, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK},
{{"gfx904"}, {"gfx904"}, GK_GFX904, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK},
{{"gfx906"}, {"gfx906"}, GK_GFX906, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK|FEATURE_SRAMECC},
{{"gfx908"}, {"gfx908"}, GK_GFX908, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK|FEATURE_SRAMECC},
{{"gfx909"}, {"gfx909"}, GK_GFX909, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK},
{{"gfx90a"}, {"gfx90a"}, GK_GFX90A, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK|FEATURE_SRAMECC},
{{"gfx90c"}, {"gfx90c"}, GK_GFX90C, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK},
{{"gfx940"}, {"gfx940"}, GK_GFX940, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_XNACK|FEATURE_SRAMECC},
{{"gfx1010"}, {"gfx1010"}, GK_GFX1010, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32|FEATURE_XNACK},
{{"gfx1011"}, {"gfx1011"}, GK_GFX1011, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32|FEATURE_XNACK},
{{"gfx1012"}, {"gfx1012"}, GK_GFX1012, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32|FEATURE_XNACK},
{{"gfx1013"}, {"gfx1013"}, GK_GFX1013, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32|FEATURE_XNACK},
{{"gfx1030"}, {"gfx1030"}, GK_GFX1030, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32},
{{"gfx1031"}, {"gfx1031"}, GK_GFX1031, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32},
{{"gfx1032"}, {"gfx1032"}, GK_GFX1032, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32},
{{"gfx1033"}, {"gfx1033"}, GK_GFX1033, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32},
{{"gfx1034"}, {"gfx1034"}, GK_GFX1034, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32},
{{"gfx1035"}, {"gfx1035"}, GK_GFX1035, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32},
{{"gfx1036"}, {"gfx1036"}, GK_GFX1036, FEATURE_FAST_FMA_F32|FEATURE_FAST_DENORMAL_F32|FEATURE_WAVE32},
};
const GPUInfo *getArchEntry(AMDGPU::GPUKind AK, ArrayRef<GPUInfo> Table) {
GPUInfo Search = { {""}, {""}, AK, AMDGPU::FEATURE_NONE };
auto I =
llvm::lower_bound(Table, Search, [](const GPUInfo &A, const GPUInfo &B) {
return A.Kind < B.Kind;
});
if (I == Table.end())
return nullptr;
return I;
}
} // namespace
StringRef llvm::AMDGPU::getArchNameAMDGCN(GPUKind AK) {
if (const auto *Entry = getArchEntry(AK, AMDGCNGPUs))
return Entry->CanonicalName;
return "";
}
StringRef llvm::AMDGPU::getArchNameR600(GPUKind AK) {
if (const auto *Entry = getArchEntry(AK, R600GPUs))
return Entry->CanonicalName;
return "";
}
AMDGPU::GPUKind llvm::AMDGPU::parseArchAMDGCN(StringRef CPU) {
for (const auto &C : AMDGCNGPUs) {
if (CPU == C.Name)
return C.Kind;
}
return AMDGPU::GPUKind::GK_NONE;
}
AMDGPU::GPUKind llvm::AMDGPU::parseArchR600(StringRef CPU) {
for (const auto &C : R600GPUs) {
if (CPU == C.Name)
return C.Kind;
}
return AMDGPU::GPUKind::GK_NONE;
}
unsigned AMDGPU::getArchAttrAMDGCN(GPUKind AK) {
if (const auto *Entry = getArchEntry(AK, AMDGCNGPUs))
return Entry->Features;
return FEATURE_NONE;
}
unsigned AMDGPU::getArchAttrR600(GPUKind AK) {
if (const auto *Entry = getArchEntry(AK, R600GPUs))
return Entry->Features;
return FEATURE_NONE;
}
void AMDGPU::fillValidArchListAMDGCN(SmallVectorImpl<StringRef> &Values) {
// XXX: Should this only report unique canonical names?
for (const auto &C : AMDGCNGPUs)
Values.push_back(C.Name);
}
void AMDGPU::fillValidArchListR600(SmallVectorImpl<StringRef> &Values) {
for (const auto &C : R600GPUs)
Values.push_back(C.Name);
}
AMDGPU::IsaVersion AMDGPU::getIsaVersion(StringRef GPU) {
AMDGPU::GPUKind AK = parseArchAMDGCN(GPU);
if (AK == AMDGPU::GPUKind::GK_NONE) {
if (GPU == "generic-hsa")
return {7, 0, 0};
if (GPU == "generic")
return {6, 0, 0};
return {0, 0, 0};
}
switch (AK) {
case GK_GFX600: return {6, 0, 0};
case GK_GFX601: return {6, 0, 1};
case GK_GFX602: return {6, 0, 2};
case GK_GFX700: return {7, 0, 0};
case GK_GFX701: return {7, 0, 1};
case GK_GFX702: return {7, 0, 2};
case GK_GFX703: return {7, 0, 3};
case GK_GFX704: return {7, 0, 4};
case GK_GFX705: return {7, 0, 5};
case GK_GFX801: return {8, 0, 1};
case GK_GFX802: return {8, 0, 2};
case GK_GFX803: return {8, 0, 3};
case GK_GFX805: return {8, 0, 5};
case GK_GFX810: return {8, 1, 0};
case GK_GFX900: return {9, 0, 0};
case GK_GFX902: return {9, 0, 2};
case GK_GFX904: return {9, 0, 4};
case GK_GFX906: return {9, 0, 6};
case GK_GFX908: return {9, 0, 8};
case GK_GFX909: return {9, 0, 9};
case GK_GFX90A: return {9, 0, 10};
case GK_GFX90C: return {9, 0, 12};
case GK_GFX940: return {9, 4, 0};
case GK_GFX1010: return {10, 1, 0};
case GK_GFX1011: return {10, 1, 1};
case GK_GFX1012: return {10, 1, 2};
case GK_GFX1013: return {10, 1, 3};
case GK_GFX1030: return {10, 3, 0};
case GK_GFX1031: return {10, 3, 1};
case GK_GFX1032: return {10, 3, 2};
case GK_GFX1033: return {10, 3, 3};
case GK_GFX1034: return {10, 3, 4};
case GK_GFX1035: return {10, 3, 5};
case GK_GFX1036: return {10, 3, 6};
default: return {0, 0, 0};
}
}
StringRef AMDGPU::getCanonicalArchName(const Triple &T, StringRef Arch) {
assert(T.isAMDGPU());
auto ProcKind = T.isAMDGCN() ? parseArchAMDGCN(Arch) : parseArchR600(Arch);
if (ProcKind == GK_NONE)
return StringRef();
return T.isAMDGCN() ? getArchNameAMDGCN(ProcKind) : getArchNameR600(ProcKind);
}
namespace llvm {
namespace RISCV {
struct CPUInfo {
StringLiteral Name;
CPUKind Kind;
unsigned Features;
StringLiteral DefaultMarch;
bool is64Bit() const { return (Features & FK_64BIT); }
};
constexpr CPUInfo RISCVCPUInfo[] = {
#define PROC(ENUM, NAME, FEATURES, DEFAULT_MARCH) \
{NAME, CK_##ENUM, FEATURES, DEFAULT_MARCH},
#include "llvm/Support/RISCVTargetParser.def"
};
bool checkCPUKind(CPUKind Kind, bool IsRV64) {
if (Kind == CK_INVALID)
return false;
return RISCVCPUInfo[static_cast<unsigned>(Kind)].is64Bit() == IsRV64;
}
bool checkTuneCPUKind(CPUKind Kind, bool IsRV64) {
if (Kind == CK_INVALID)
return false;
return RISCVCPUInfo[static_cast<unsigned>(Kind)].is64Bit() == IsRV64;
}
CPUKind parseCPUKind(StringRef CPU) {
return llvm::StringSwitch<CPUKind>(CPU)
#define PROC(ENUM, NAME, FEATURES, DEFAULT_MARCH) .Case(NAME, CK_##ENUM)
#include "llvm/Support/RISCVTargetParser.def"
.Default(CK_INVALID);
}
StringRef resolveTuneCPUAlias(StringRef TuneCPU, bool IsRV64) {
return llvm::StringSwitch<StringRef>(TuneCPU)
#define PROC_ALIAS(NAME, RV32, RV64) .Case(NAME, IsRV64 ? StringRef(RV64) : StringRef(RV32))
#include "llvm/Support/RISCVTargetParser.def"
.Default(TuneCPU);
}
CPUKind parseTuneCPUKind(StringRef TuneCPU, bool IsRV64) {
TuneCPU = resolveTuneCPUAlias(TuneCPU, IsRV64);
return llvm::StringSwitch<CPUKind>(TuneCPU)
#define PROC(ENUM, NAME, FEATURES, DEFAULT_MARCH) .Case(NAME, CK_##ENUM)
#include "llvm/Support/RISCVTargetParser.def"
.Default(CK_INVALID);
}
StringRef getMArchFromMcpu(StringRef CPU) {
CPUKind Kind = parseCPUKind(CPU);
return RISCVCPUInfo[static_cast<unsigned>(Kind)].DefaultMarch;
}
void fillValidCPUArchList(SmallVectorImpl<StringRef> &Values, bool IsRV64) {
for (const auto &C : RISCVCPUInfo) {
if (C.Kind != CK_INVALID && IsRV64 == C.is64Bit())
Values.emplace_back(C.Name);
}
}
void fillValidTuneCPUArchList(SmallVectorImpl<StringRef> &Values, bool IsRV64) {
for (const auto &C : RISCVCPUInfo) {
if (C.Kind != CK_INVALID && IsRV64 == C.is64Bit())
Values.emplace_back(C.Name);
}
#define PROC_ALIAS(NAME, RV32, RV64) Values.emplace_back(StringRef(NAME));
#include "llvm/Support/RISCVTargetParser.def"
}
// Get all features except standard extension feature
bool getCPUFeaturesExceptStdExt(CPUKind Kind,
std::vector<StringRef> &Features) {
unsigned CPUFeatures = RISCVCPUInfo[static_cast<unsigned>(Kind)].Features;
if (CPUFeatures == FK_INVALID)
return false;
if (CPUFeatures & FK_64BIT)
Features.push_back("+64bit");
else
Features.push_back("-64bit");
return true;
}
} // namespace RISCV
} // namespace llvm
// Parse a branch protection specification, which has the form
// standard | none | [bti,pac-ret[+b-key,+leaf]*]
// Returns true on success, with individual elements of the specification
// returned in `PBP`. Returns false in error, with `Err` containing
// an erroneous part of the spec.
bool ARM::parseBranchProtection(StringRef Spec, ParsedBranchProtection &PBP,
StringRef &Err) {
PBP = {"none", "a_key", false};
if (Spec == "none")
return true; // defaults are ok
if (Spec == "standard") {
PBP.Scope = "non-leaf";
PBP.BranchTargetEnforcement = true;
return true;
}
SmallVector<StringRef, 4> Opts;
Spec.split(Opts, "+");
for (int I = 0, E = Opts.size(); I != E; ++I) {
StringRef Opt = Opts[I].trim();
if (Opt == "bti") {
PBP.BranchTargetEnforcement = true;
continue;
}
if (Opt == "pac-ret") {
PBP.Scope = "non-leaf";
for (; I + 1 != E; ++I) {
StringRef PACOpt = Opts[I + 1].trim();
if (PACOpt == "leaf")
PBP.Scope = "all";
else if (PACOpt == "b-key")
PBP.Key = "b_key";
else
break;
}
continue;
}
if (Opt == "")
Err = "<empty>";
else
Err = Opt;
return false;
}
return true;
}