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//===-- X86TargetParser - Parser for X86 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 X86 hardware features.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/X86TargetParser.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/ADT/Triple.h"
#include <numeric>
using namespace llvm;
using namespace llvm::X86;
namespace {
/// Container class for CPU features.
/// This is a constexpr reimplementation of a subset of std::bitset. It would be
/// nice to use std::bitset directly, but it doesn't support constant
/// initialization.
class FeatureBitset {
static constexpr unsigned NUM_FEATURE_WORDS =
(X86::CPU_FEATURE_MAX + 31) / 32;
// This cannot be a std::array, operator[] is not constexpr until C++17.
uint32_t Bits[NUM_FEATURE_WORDS] = {};
public:
constexpr FeatureBitset() = default;
constexpr FeatureBitset(std::initializer_list<unsigned> Init) {
for (auto I : Init)
set(I);
}
bool any() const {
return llvm::any_of(Bits, [](uint64_t V) { return V != 0; });
}
constexpr FeatureBitset &set(unsigned I) {
// GCC <6.2 crashes if this is written in a single statement.
uint32_t NewBits = Bits[I / 32] | (uint32_t(1) << (I % 32));
Bits[I / 32] = NewBits;
return *this;
}
constexpr bool operator[](unsigned I) const {
uint32_t Mask = uint32_t(1) << (I % 32);
return (Bits[I / 32] & Mask) != 0;
}
constexpr FeatureBitset &operator&=(const FeatureBitset &RHS) {
for (unsigned I = 0, E = array_lengthof(Bits); I != E; ++I) {
// GCC <6.2 crashes if this is written in a single statement.
uint32_t NewBits = Bits[I] & RHS.Bits[I];
Bits[I] = NewBits;
}
return *this;
}
constexpr FeatureBitset &operator|=(const FeatureBitset &RHS) {
for (unsigned I = 0, E = array_lengthof(Bits); I != E; ++I) {
// GCC <6.2 crashes if this is written in a single statement.
uint32_t NewBits = Bits[I] | RHS.Bits[I];
Bits[I] = NewBits;
}
return *this;
}
// gcc 5.3 miscompiles this if we try to write this using operator&=.
constexpr FeatureBitset operator&(const FeatureBitset &RHS) const {
FeatureBitset Result;
for (unsigned I = 0, E = array_lengthof(Bits); I != E; ++I)
Result.Bits[I] = Bits[I] & RHS.Bits[I];
return Result;
}
// gcc 5.3 miscompiles this if we try to write this using operator&=.
constexpr FeatureBitset operator|(const FeatureBitset &RHS) const {
FeatureBitset Result;
for (unsigned I = 0, E = array_lengthof(Bits); I != E; ++I)
Result.Bits[I] = Bits[I] | RHS.Bits[I];
return Result;
}
constexpr FeatureBitset operator~() const {
FeatureBitset Result;
for (unsigned I = 0, E = array_lengthof(Bits); I != E; ++I)
Result.Bits[I] = ~Bits[I];
return Result;
}
constexpr bool operator!=(const FeatureBitset &RHS) const {
for (unsigned I = 0, E = array_lengthof(Bits); I != E; ++I)
if (Bits[I] != RHS.Bits[I])
return true;
return false;
}
};
struct ProcInfo {
StringLiteral Name;
X86::CPUKind Kind;
unsigned KeyFeature;
FeatureBitset Features;
};
struct FeatureInfo {
StringLiteral Name;
FeatureBitset ImpliedFeatures;
};
} // end anonymous namespace
#define X86_FEATURE(ENUM, STRING) \
constexpr FeatureBitset Feature##ENUM = {X86::FEATURE_##ENUM};
#include "llvm/Support/X86TargetParser.def"
// Pentium with MMX.
constexpr FeatureBitset FeaturesPentiumMMX =
FeatureX87 | FeatureCMPXCHG8B | FeatureMMX;
// Pentium 2 and 3.
constexpr FeatureBitset FeaturesPentium2 =
FeatureX87 | FeatureCMPXCHG8B | FeatureMMX | FeatureFXSR;
constexpr FeatureBitset FeaturesPentium3 = FeaturesPentium2 | FeatureSSE;
// Pentium 4 CPUs
constexpr FeatureBitset FeaturesPentium4 = FeaturesPentium3 | FeatureSSE2;
constexpr FeatureBitset FeaturesPrescott = FeaturesPentium4 | FeatureSSE3;
constexpr FeatureBitset FeaturesNocona =
FeaturesPrescott | Feature64BIT | FeatureCMPXCHG16B;
// Basic 64-bit capable CPU.
constexpr FeatureBitset FeaturesX86_64 = FeaturesPentium4 | Feature64BIT;
constexpr FeatureBitset FeaturesX86_64_V2 = FeaturesX86_64 | FeatureSAHF |
FeaturePOPCNT | FeatureCRC32 |
FeatureSSE4_2 | FeatureCMPXCHG16B;
constexpr FeatureBitset FeaturesX86_64_V3 =
FeaturesX86_64_V2 | FeatureAVX2 | FeatureBMI | FeatureBMI2 | FeatureF16C |
FeatureFMA | FeatureLZCNT | FeatureMOVBE | FeatureXSAVE;
constexpr FeatureBitset FeaturesX86_64_V4 = FeaturesX86_64_V3 |
FeatureAVX512BW | FeatureAVX512CD |
FeatureAVX512DQ | FeatureAVX512VL;
// Intel Core CPUs
constexpr FeatureBitset FeaturesCore2 =
FeaturesNocona | FeatureSAHF | FeatureSSSE3;
constexpr FeatureBitset FeaturesPenryn = FeaturesCore2 | FeatureSSE4_1;
constexpr FeatureBitset FeaturesNehalem =
FeaturesPenryn | FeaturePOPCNT | FeatureCRC32 | FeatureSSE4_2;
constexpr FeatureBitset FeaturesWestmere = FeaturesNehalem | FeaturePCLMUL;
constexpr FeatureBitset FeaturesSandyBridge =
FeaturesWestmere | FeatureAVX | FeatureXSAVE | FeatureXSAVEOPT;
constexpr FeatureBitset FeaturesIvyBridge =
FeaturesSandyBridge | FeatureF16C | FeatureFSGSBASE | FeatureRDRND;
constexpr FeatureBitset FeaturesHaswell =
FeaturesIvyBridge | FeatureAVX2 | FeatureBMI | FeatureBMI2 | FeatureFMA |
FeatureINVPCID | FeatureLZCNT | FeatureMOVBE;
constexpr FeatureBitset FeaturesBroadwell =
FeaturesHaswell | FeatureADX | FeaturePRFCHW | FeatureRDSEED;
// Intel Knights Landing and Knights Mill
// Knights Landing has feature parity with Broadwell.
constexpr FeatureBitset FeaturesKNL =
FeaturesBroadwell | FeatureAES | FeatureAVX512F | FeatureAVX512CD |
FeatureAVX512ER | FeatureAVX512PF | FeaturePREFETCHWT1;
constexpr FeatureBitset FeaturesKNM = FeaturesKNL | FeatureAVX512VPOPCNTDQ;
// Intel Skylake processors.
constexpr FeatureBitset FeaturesSkylakeClient =
FeaturesBroadwell | FeatureAES | FeatureCLFLUSHOPT | FeatureXSAVEC |
FeatureXSAVES | FeatureSGX;
// SkylakeServer inherits all SkylakeClient features except SGX.
// FIXME: That doesn't match gcc.
constexpr FeatureBitset FeaturesSkylakeServer =
(FeaturesSkylakeClient & ~FeatureSGX) | FeatureAVX512F | FeatureAVX512CD |
FeatureAVX512DQ | FeatureAVX512BW | FeatureAVX512VL | FeatureCLWB |
FeaturePKU;
constexpr FeatureBitset FeaturesCascadeLake =
FeaturesSkylakeServer | FeatureAVX512VNNI;
constexpr FeatureBitset FeaturesCooperLake =
FeaturesCascadeLake | FeatureAVX512BF16;
// Intel 10nm processors.
constexpr FeatureBitset FeaturesCannonlake =
FeaturesSkylakeClient | FeatureAVX512F | FeatureAVX512CD | FeatureAVX512DQ |
FeatureAVX512BW | FeatureAVX512VL | FeatureAVX512IFMA | FeatureAVX512VBMI |
FeaturePKU | FeatureSHA;
constexpr FeatureBitset FeaturesICLClient =
FeaturesCannonlake | FeatureAVX512BITALG | FeatureAVX512VBMI2 |
FeatureAVX512VNNI | FeatureAVX512VPOPCNTDQ | FeatureGFNI | FeatureRDPID |
FeatureVAES | FeatureVPCLMULQDQ;
constexpr FeatureBitset FeaturesRocketlake = FeaturesICLClient & ~FeatureSGX;
constexpr FeatureBitset FeaturesICLServer =
FeaturesICLClient | FeatureCLWB | FeaturePCONFIG | FeatureWBNOINVD;
constexpr FeatureBitset FeaturesTigerlake =
FeaturesICLClient | FeatureAVX512VP2INTERSECT | FeatureMOVDIR64B |
FeatureCLWB | FeatureMOVDIRI | FeatureSHSTK | FeatureKL | FeatureWIDEKL;
constexpr FeatureBitset FeaturesSapphireRapids =
FeaturesICLServer | FeatureAMX_BF16 | FeatureAMX_INT8 | FeatureAMX_TILE |
FeatureAVX512BF16 | FeatureAVX512FP16 | FeatureAVX512VP2INTERSECT |
FeatureAVXVNNI | FeatureCLDEMOTE | FeatureENQCMD | FeatureMOVDIR64B |
FeatureMOVDIRI | FeaturePTWRITE | FeatureSERIALIZE | FeatureSHSTK |
FeatureTSXLDTRK | FeatureUINTR | FeatureWAITPKG;
// Intel Atom processors.
// Bonnell has feature parity with Core2 and adds MOVBE.
constexpr FeatureBitset FeaturesBonnell = FeaturesCore2 | FeatureMOVBE;
// Silvermont has parity with Westmere and Bonnell plus PRFCHW and RDRND.
constexpr FeatureBitset FeaturesSilvermont =
FeaturesBonnell | FeaturesWestmere | FeaturePRFCHW | FeatureRDRND;
constexpr FeatureBitset FeaturesGoldmont =
FeaturesSilvermont | FeatureAES | FeatureCLFLUSHOPT | FeatureFSGSBASE |
FeatureRDSEED | FeatureSHA | FeatureXSAVE | FeatureXSAVEC |
FeatureXSAVEOPT | FeatureXSAVES;
constexpr FeatureBitset FeaturesGoldmontPlus =
FeaturesGoldmont | FeaturePTWRITE | FeatureRDPID | FeatureSGX;
constexpr FeatureBitset FeaturesTremont =
FeaturesGoldmontPlus | FeatureCLWB | FeatureGFNI;
constexpr FeatureBitset FeaturesAlderlake =
FeaturesTremont | FeatureADX | FeatureBMI | FeatureBMI2 | FeatureF16C |
FeatureFMA | FeatureINVPCID | FeatureLZCNT | FeaturePCONFIG | FeaturePKU |
FeatureSERIALIZE | FeatureSHSTK | FeatureVAES | FeatureVPCLMULQDQ |
FeatureCLDEMOTE | FeatureMOVDIR64B | FeatureMOVDIRI | FeatureWAITPKG |
FeatureAVXVNNI | FeatureHRESET | FeatureWIDEKL;
// Geode Processor.
constexpr FeatureBitset FeaturesGeode =
FeatureX87 | FeatureCMPXCHG8B | FeatureMMX | Feature3DNOW | Feature3DNOWA;
// K6 processor.
constexpr FeatureBitset FeaturesK6 = FeatureX87 | FeatureCMPXCHG8B | FeatureMMX;
// K7 and K8 architecture processors.
constexpr FeatureBitset FeaturesAthlon =
FeatureX87 | FeatureCMPXCHG8B | FeatureMMX | Feature3DNOW | Feature3DNOWA;
constexpr FeatureBitset FeaturesAthlonXP =
FeaturesAthlon | FeatureFXSR | FeatureSSE;
constexpr FeatureBitset FeaturesK8 =
FeaturesAthlonXP | FeatureSSE2 | Feature64BIT;
constexpr FeatureBitset FeaturesK8SSE3 = FeaturesK8 | FeatureSSE3;
constexpr FeatureBitset FeaturesAMDFAM10 =
FeaturesK8SSE3 | FeatureCMPXCHG16B | FeatureLZCNT | FeaturePOPCNT |
FeaturePRFCHW | FeatureSAHF | FeatureSSE4_A;
// Bobcat architecture processors.
constexpr FeatureBitset FeaturesBTVER1 =
FeatureX87 | FeatureCMPXCHG8B | FeatureCMPXCHG16B | Feature64BIT |
FeatureFXSR | FeatureLZCNT | FeatureMMX | FeaturePOPCNT | FeaturePRFCHW |
FeatureSSE | FeatureSSE2 | FeatureSSE3 | FeatureSSSE3 | FeatureSSE4_A |
FeatureSAHF;
constexpr FeatureBitset FeaturesBTVER2 =
FeaturesBTVER1 | FeatureAES | FeatureAVX | FeatureBMI | FeatureCRC32 |
FeatureF16C | FeatureMOVBE | FeaturePCLMUL | FeatureXSAVE | FeatureXSAVEOPT;
// AMD Bulldozer architecture processors.
constexpr FeatureBitset FeaturesBDVER1 =
FeatureX87 | FeatureAES | FeatureAVX | FeatureCMPXCHG8B |
FeatureCMPXCHG16B | FeatureCRC32 | Feature64BIT | FeatureFMA4 |
FeatureFXSR | FeatureLWP | FeatureLZCNT | FeatureMMX | FeaturePCLMUL |
FeaturePOPCNT | FeaturePRFCHW | FeatureSAHF | FeatureSSE | FeatureSSE2 |
FeatureSSE3 | FeatureSSSE3 | FeatureSSE4_1 | FeatureSSE4_2 | FeatureSSE4_A |
FeatureXOP | FeatureXSAVE;
constexpr FeatureBitset FeaturesBDVER2 =
FeaturesBDVER1 | FeatureBMI | FeatureFMA | FeatureF16C | FeatureTBM;
constexpr FeatureBitset FeaturesBDVER3 =
FeaturesBDVER2 | FeatureFSGSBASE | FeatureXSAVEOPT;
constexpr FeatureBitset FeaturesBDVER4 = FeaturesBDVER3 | FeatureAVX2 |
FeatureBMI2 | FeatureMOVBE |
FeatureMWAITX | FeatureRDRND;
// AMD Zen architecture processors.
constexpr FeatureBitset FeaturesZNVER1 =
FeatureX87 | FeatureADX | FeatureAES | FeatureAVX | FeatureAVX2 |
FeatureBMI | FeatureBMI2 | FeatureCLFLUSHOPT | FeatureCLZERO |
FeatureCMPXCHG8B | FeatureCMPXCHG16B | FeatureCRC32 | Feature64BIT |
FeatureF16C | FeatureFMA | FeatureFSGSBASE | FeatureFXSR | FeatureLZCNT |
FeatureMMX | FeatureMOVBE | FeatureMWAITX | FeaturePCLMUL | FeaturePOPCNT |
FeaturePRFCHW | FeatureRDRND | FeatureRDSEED | FeatureSAHF | FeatureSHA |
FeatureSSE | FeatureSSE2 | FeatureSSE3 | FeatureSSSE3 | FeatureSSE4_1 |
FeatureSSE4_2 | FeatureSSE4_A | FeatureXSAVE | FeatureXSAVEC |
FeatureXSAVEOPT | FeatureXSAVES;
constexpr FeatureBitset FeaturesZNVER2 =
FeaturesZNVER1 | FeatureCLWB | FeatureRDPID | FeatureWBNOINVD;
static constexpr FeatureBitset FeaturesZNVER3 = FeaturesZNVER2 |
FeatureINVPCID | FeaturePKU |
FeatureVAES | FeatureVPCLMULQDQ;
constexpr ProcInfo Processors[] = {
// Empty processor. Include X87 and CMPXCHG8 for backwards compatibility.
{ {""}, CK_None, ~0U, FeatureX87 | FeatureCMPXCHG8B },
// i386-generation processors.
{ {"i386"}, CK_i386, ~0U, FeatureX87 },
// i486-generation processors.
{ {"i486"}, CK_i486, ~0U, FeatureX87 },
{ {"winchip-c6"}, CK_WinChipC6, ~0U, FeaturesPentiumMMX },
{ {"winchip2"}, CK_WinChip2, ~0U, FeaturesPentiumMMX | Feature3DNOW },
{ {"c3"}, CK_C3, ~0U, FeaturesPentiumMMX | Feature3DNOW },
// i586-generation processors, P5 microarchitecture based.
{ {"i586"}, CK_i586, ~0U, FeatureX87 | FeatureCMPXCHG8B },
{ {"pentium"}, CK_Pentium, ~0U, FeatureX87 | FeatureCMPXCHG8B },
{ {"pentium-mmx"}, CK_PentiumMMX, ~0U, FeaturesPentiumMMX },
// i686-generation processors, P6 / Pentium M microarchitecture based.
{ {"pentiumpro"}, CK_PentiumPro, ~0U, FeatureX87 | FeatureCMPXCHG8B },
{ {"i686"}, CK_i686, ~0U, FeatureX87 | FeatureCMPXCHG8B },
{ {"pentium2"}, CK_Pentium2, ~0U, FeaturesPentium2 },
{ {"pentium3"}, CK_Pentium3, ~0U, FeaturesPentium3 },
{ {"pentium3m"}, CK_Pentium3, ~0U, FeaturesPentium3 },
{ {"pentium-m"}, CK_PentiumM, ~0U, FeaturesPentium4 },
{ {"c3-2"}, CK_C3_2, ~0U, FeaturesPentium3 },
{ {"yonah"}, CK_Yonah, ~0U, FeaturesPrescott },
// Netburst microarchitecture based processors.
{ {"pentium4"}, CK_Pentium4, ~0U, FeaturesPentium4 },
{ {"pentium4m"}, CK_Pentium4, ~0U, FeaturesPentium4 },
{ {"prescott"}, CK_Prescott, ~0U, FeaturesPrescott },
{ {"nocona"}, CK_Nocona, ~0U, FeaturesNocona },
// Core microarchitecture based processors.
{ {"core2"}, CK_Core2, ~0U, FeaturesCore2 },
{ {"penryn"}, CK_Penryn, ~0U, FeaturesPenryn },
// Atom processors
{ {"bonnell"}, CK_Bonnell, FEATURE_SSSE3, FeaturesBonnell },
{ {"atom"}, CK_Bonnell, FEATURE_SSSE3, FeaturesBonnell },
{ {"silvermont"}, CK_Silvermont, FEATURE_SSE4_2, FeaturesSilvermont },
{ {"slm"}, CK_Silvermont, FEATURE_SSE4_2, FeaturesSilvermont },
{ {"goldmont"}, CK_Goldmont, FEATURE_SSE4_2, FeaturesGoldmont },
{ {"goldmont-plus"}, CK_GoldmontPlus, FEATURE_SSE4_2, FeaturesGoldmontPlus },
{ {"tremont"}, CK_Tremont, FEATURE_SSE4_2, FeaturesTremont },
// Nehalem microarchitecture based processors.
{ {"nehalem"}, CK_Nehalem, FEATURE_SSE4_2, FeaturesNehalem },
{ {"corei7"}, CK_Nehalem, FEATURE_SSE4_2, FeaturesNehalem },
// Westmere microarchitecture based processors.
{ {"westmere"}, CK_Westmere, FEATURE_PCLMUL, FeaturesWestmere },
// Sandy Bridge microarchitecture based processors.
{ {"sandybridge"}, CK_SandyBridge, FEATURE_AVX, FeaturesSandyBridge },
{ {"corei7-avx"}, CK_SandyBridge, FEATURE_AVX, FeaturesSandyBridge },
// Ivy Bridge microarchitecture based processors.
{ {"ivybridge"}, CK_IvyBridge, FEATURE_AVX, FeaturesIvyBridge },
{ {"core-avx-i"}, CK_IvyBridge, FEATURE_AVX, FeaturesIvyBridge },
// Haswell microarchitecture based processors.
{ {"haswell"}, CK_Haswell, FEATURE_AVX2, FeaturesHaswell },
{ {"core-avx2"}, CK_Haswell, FEATURE_AVX2, FeaturesHaswell },
// Broadwell microarchitecture based processors.
{ {"broadwell"}, CK_Broadwell, FEATURE_AVX2, FeaturesBroadwell },
// Skylake client microarchitecture based processors.
{ {"skylake"}, CK_SkylakeClient, FEATURE_AVX2, FeaturesSkylakeClient },
// Skylake server microarchitecture based processors.
{ {"skylake-avx512"}, CK_SkylakeServer, FEATURE_AVX512F, FeaturesSkylakeServer },
{ {"skx"}, CK_SkylakeServer, FEATURE_AVX512F, FeaturesSkylakeServer },
// Cascadelake Server microarchitecture based processors.
{ {"cascadelake"}, CK_Cascadelake, FEATURE_AVX512VNNI, FeaturesCascadeLake },
// Cooperlake Server microarchitecture based processors.
{ {"cooperlake"}, CK_Cooperlake, FEATURE_AVX512BF16, FeaturesCooperLake },
// Cannonlake client microarchitecture based processors.
{ {"cannonlake"}, CK_Cannonlake, FEATURE_AVX512VBMI, FeaturesCannonlake },
// Icelake client microarchitecture based processors.
{ {"icelake-client"}, CK_IcelakeClient, FEATURE_AVX512VBMI2, FeaturesICLClient },
// Rocketlake microarchitecture based processors.
{ {"rocketlake"}, CK_Rocketlake, FEATURE_AVX512VBMI2, FeaturesRocketlake },
// Icelake server microarchitecture based processors.
{ {"icelake-server"}, CK_IcelakeServer, FEATURE_AVX512VBMI2, FeaturesICLServer },
// Tigerlake microarchitecture based processors.
{ {"tigerlake"}, CK_Tigerlake, FEATURE_AVX512VP2INTERSECT, FeaturesTigerlake },
// Sapphire Rapids microarchitecture based processors.
{ {"sapphirerapids"}, CK_SapphireRapids, FEATURE_AVX512VP2INTERSECT, FeaturesSapphireRapids },
// Alderlake microarchitecture based processors.
{ {"alderlake"}, CK_Alderlake, FEATURE_AVX2, FeaturesAlderlake },
// Knights Landing processor.
{ {"knl"}, CK_KNL, FEATURE_AVX512F, FeaturesKNL },
// Knights Mill processor.
{ {"knm"}, CK_KNM, FEATURE_AVX5124FMAPS, FeaturesKNM },
// Lakemont microarchitecture based processors.
{ {"lakemont"}, CK_Lakemont, ~0U, FeatureCMPXCHG8B },
// K6 architecture processors.
{ {"k6"}, CK_K6, ~0U, FeaturesK6 },
{ {"k6-2"}, CK_K6_2, ~0U, FeaturesK6 | Feature3DNOW },
{ {"k6-3"}, CK_K6_3, ~0U, FeaturesK6 | Feature3DNOW },
// K7 architecture processors.
{ {"athlon"}, CK_Athlon, ~0U, FeaturesAthlon },
{ {"athlon-tbird"}, CK_Athlon, ~0U, FeaturesAthlon },
{ {"athlon-xp"}, CK_AthlonXP, ~0U, FeaturesAthlonXP },
{ {"athlon-mp"}, CK_AthlonXP, ~0U, FeaturesAthlonXP },
{ {"athlon-4"}, CK_AthlonXP, ~0U, FeaturesAthlonXP },
// K8 architecture processors.
{ {"k8"}, CK_K8, ~0U, FeaturesK8 },
{ {"athlon64"}, CK_K8, ~0U, FeaturesK8 },
{ {"athlon-fx"}, CK_K8, ~0U, FeaturesK8 },
{ {"opteron"}, CK_K8, ~0U, FeaturesK8 },
{ {"k8-sse3"}, CK_K8SSE3, ~0U, FeaturesK8SSE3 },
{ {"athlon64-sse3"}, CK_K8SSE3, ~0U, FeaturesK8SSE3 },
{ {"opteron-sse3"}, CK_K8SSE3, ~0U, FeaturesK8SSE3 },
{ {"amdfam10"}, CK_AMDFAM10, FEATURE_SSE4_A, FeaturesAMDFAM10 },
{ {"barcelona"}, CK_AMDFAM10, FEATURE_SSE4_A, FeaturesAMDFAM10 },
// Bobcat architecture processors.
{ {"btver1"}, CK_BTVER1, FEATURE_SSE4_A, FeaturesBTVER1 },
{ {"btver2"}, CK_BTVER2, FEATURE_BMI, FeaturesBTVER2 },
// Bulldozer architecture processors.
{ {"bdver1"}, CK_BDVER1, FEATURE_XOP, FeaturesBDVER1 },
{ {"bdver2"}, CK_BDVER2, FEATURE_FMA, FeaturesBDVER2 },
{ {"bdver3"}, CK_BDVER3, FEATURE_FMA, FeaturesBDVER3 },
{ {"bdver4"}, CK_BDVER4, FEATURE_AVX2, FeaturesBDVER4 },
// Zen architecture processors.
{ {"znver1"}, CK_ZNVER1, FEATURE_AVX2, FeaturesZNVER1 },
{ {"znver2"}, CK_ZNVER2, FEATURE_AVX2, FeaturesZNVER2 },
{ {"znver3"}, CK_ZNVER3, FEATURE_AVX2, FeaturesZNVER3 },
// Generic 64-bit processor.
{ {"x86-64"}, CK_x86_64, ~0U, FeaturesX86_64 },
{ {"x86-64-v2"}, CK_x86_64_v2, ~0U, FeaturesX86_64_V2 },
{ {"x86-64-v3"}, CK_x86_64_v3, ~0U, FeaturesX86_64_V3 },
{ {"x86-64-v4"}, CK_x86_64_v4, ~0U, FeaturesX86_64_V4 },
// Geode processors.
{ {"geode"}, CK_Geode, ~0U, FeaturesGeode },
};
constexpr const char *NoTuneList[] = {"x86-64-v2", "x86-64-v3", "x86-64-v4"};
X86::CPUKind llvm::X86::parseArchX86(StringRef CPU, bool Only64Bit) {
for (const auto &P : Processors)
if (P.Name == CPU && (P.Features[FEATURE_64BIT] || !Only64Bit))
return P.Kind;
return CK_None;
}
X86::CPUKind llvm::X86::parseTuneCPU(StringRef CPU, bool Only64Bit) {
if (llvm::is_contained(NoTuneList, CPU))
return CK_None;
return parseArchX86(CPU, Only64Bit);
}
void llvm::X86::fillValidCPUArchList(SmallVectorImpl<StringRef> &Values,
bool Only64Bit) {
for (const auto &P : Processors)
if (!P.Name.empty() && (P.Features[FEATURE_64BIT] || !Only64Bit))
Values.emplace_back(P.Name);
}
void llvm::X86::fillValidTuneCPUList(SmallVectorImpl<StringRef> &Values,
bool Only64Bit) {
for (const ProcInfo &P : Processors)
if (!P.Name.empty() && (P.Features[FEATURE_64BIT] || !Only64Bit) &&
!llvm::is_contained(NoTuneList, P.Name))
Values.emplace_back(P.Name);
}
ProcessorFeatures llvm::X86::getKeyFeature(X86::CPUKind Kind) {
// FIXME: Can we avoid a linear search here? The table might be sorted by
// CPUKind so we could binary search?
for (const auto &P : Processors) {
if (P.Kind == Kind) {
assert(P.KeyFeature != ~0U && "Processor does not have a key feature.");
return static_cast<ProcessorFeatures>(P.KeyFeature);
}
}
llvm_unreachable("Unable to find CPU kind!");
}
// Features with no dependencies.
constexpr FeatureBitset ImpliedFeatures64BIT = {};
constexpr FeatureBitset ImpliedFeaturesADX = {};
constexpr FeatureBitset ImpliedFeaturesBMI = {};
constexpr FeatureBitset ImpliedFeaturesBMI2 = {};
constexpr FeatureBitset ImpliedFeaturesCLDEMOTE = {};
constexpr FeatureBitset ImpliedFeaturesCLFLUSHOPT = {};
constexpr FeatureBitset ImpliedFeaturesCLWB = {};
constexpr FeatureBitset ImpliedFeaturesCLZERO = {};
constexpr FeatureBitset ImpliedFeaturesCMOV = {};
constexpr FeatureBitset ImpliedFeaturesCMPXCHG16B = {};
constexpr FeatureBitset ImpliedFeaturesCMPXCHG8B = {};
constexpr FeatureBitset ImpliedFeaturesCRC32 = {};
constexpr FeatureBitset ImpliedFeaturesENQCMD = {};
constexpr FeatureBitset ImpliedFeaturesFSGSBASE = {};
constexpr FeatureBitset ImpliedFeaturesFXSR = {};
constexpr FeatureBitset ImpliedFeaturesINVPCID = {};
constexpr FeatureBitset ImpliedFeaturesLWP = {};
constexpr FeatureBitset ImpliedFeaturesLZCNT = {};
constexpr FeatureBitset ImpliedFeaturesMWAITX = {};
constexpr FeatureBitset ImpliedFeaturesMOVBE = {};
constexpr FeatureBitset ImpliedFeaturesMOVDIR64B = {};
constexpr FeatureBitset ImpliedFeaturesMOVDIRI = {};
constexpr FeatureBitset ImpliedFeaturesPCONFIG = {};
constexpr FeatureBitset ImpliedFeaturesPOPCNT = {};
constexpr FeatureBitset ImpliedFeaturesPKU = {};
constexpr FeatureBitset ImpliedFeaturesPREFETCHWT1 = {};
constexpr FeatureBitset ImpliedFeaturesPRFCHW = {};
constexpr FeatureBitset ImpliedFeaturesPTWRITE = {};
constexpr FeatureBitset ImpliedFeaturesRDPID = {};
constexpr FeatureBitset ImpliedFeaturesRDRND = {};
constexpr FeatureBitset ImpliedFeaturesRDSEED = {};
constexpr FeatureBitset ImpliedFeaturesRTM = {};
constexpr FeatureBitset ImpliedFeaturesSAHF = {};
constexpr FeatureBitset ImpliedFeaturesSERIALIZE = {};
constexpr FeatureBitset ImpliedFeaturesSGX = {};
constexpr FeatureBitset ImpliedFeaturesSHSTK = {};
constexpr FeatureBitset ImpliedFeaturesTBM = {};
constexpr FeatureBitset ImpliedFeaturesTSXLDTRK = {};
constexpr FeatureBitset ImpliedFeaturesUINTR = {};
constexpr FeatureBitset ImpliedFeaturesWAITPKG = {};
constexpr FeatureBitset ImpliedFeaturesWBNOINVD = {};
constexpr FeatureBitset ImpliedFeaturesVZEROUPPER = {};
constexpr FeatureBitset ImpliedFeaturesX87 = {};
constexpr FeatureBitset ImpliedFeaturesXSAVE = {};
// Not really CPU features, but need to be in the table because clang uses
// target features to communicate them to the backend.
constexpr FeatureBitset ImpliedFeaturesRETPOLINE_EXTERNAL_THUNK = {};
constexpr FeatureBitset ImpliedFeaturesRETPOLINE_INDIRECT_BRANCHES = {};
constexpr FeatureBitset ImpliedFeaturesRETPOLINE_INDIRECT_CALLS = {};
constexpr FeatureBitset ImpliedFeaturesLVI_CFI = {};
constexpr FeatureBitset ImpliedFeaturesLVI_LOAD_HARDENING = {};
// XSAVE features are dependent on basic XSAVE.
constexpr FeatureBitset ImpliedFeaturesXSAVEC = FeatureXSAVE;
constexpr FeatureBitset ImpliedFeaturesXSAVEOPT = FeatureXSAVE;
constexpr FeatureBitset ImpliedFeaturesXSAVES = FeatureXSAVE;
// MMX->3DNOW->3DNOWA chain.
constexpr FeatureBitset ImpliedFeaturesMMX = {};
constexpr FeatureBitset ImpliedFeatures3DNOW = FeatureMMX;
constexpr FeatureBitset ImpliedFeatures3DNOWA = Feature3DNOW;
// SSE/AVX/AVX512F chain.
constexpr FeatureBitset ImpliedFeaturesSSE = {};
constexpr FeatureBitset ImpliedFeaturesSSE2 = FeatureSSE;
constexpr FeatureBitset ImpliedFeaturesSSE3 = FeatureSSE2;
constexpr FeatureBitset ImpliedFeaturesSSSE3 = FeatureSSE3;
constexpr FeatureBitset ImpliedFeaturesSSE4_1 = FeatureSSSE3;
constexpr FeatureBitset ImpliedFeaturesSSE4_2 = FeatureSSE4_1;
constexpr FeatureBitset ImpliedFeaturesAVX = FeatureSSE4_2;
constexpr FeatureBitset ImpliedFeaturesAVX2 = FeatureAVX;
constexpr FeatureBitset ImpliedFeaturesAVX512F =
FeatureAVX2 | FeatureF16C | FeatureFMA;
// Vector extensions that build on SSE or AVX.
constexpr FeatureBitset ImpliedFeaturesAES = FeatureSSE2;
constexpr FeatureBitset ImpliedFeaturesF16C = FeatureAVX;
constexpr FeatureBitset ImpliedFeaturesFMA = FeatureAVX;
constexpr FeatureBitset ImpliedFeaturesGFNI = FeatureSSE2;
constexpr FeatureBitset ImpliedFeaturesPCLMUL = FeatureSSE2;
constexpr FeatureBitset ImpliedFeaturesSHA = FeatureSSE2;
constexpr FeatureBitset ImpliedFeaturesVAES = FeatureAES | FeatureAVX;
constexpr FeatureBitset ImpliedFeaturesVPCLMULQDQ = FeatureAVX | FeaturePCLMUL;
// AVX512 features.
constexpr FeatureBitset ImpliedFeaturesAVX512CD = FeatureAVX512F;
constexpr FeatureBitset ImpliedFeaturesAVX512BW = FeatureAVX512F;
constexpr FeatureBitset ImpliedFeaturesAVX512DQ = FeatureAVX512F;
constexpr FeatureBitset ImpliedFeaturesAVX512ER = FeatureAVX512F;
constexpr FeatureBitset ImpliedFeaturesAVX512PF = FeatureAVX512F;
constexpr FeatureBitset ImpliedFeaturesAVX512VL = FeatureAVX512F;
constexpr FeatureBitset ImpliedFeaturesAVX512BF16 = FeatureAVX512BW;
constexpr FeatureBitset ImpliedFeaturesAVX512BITALG = FeatureAVX512BW;
constexpr FeatureBitset ImpliedFeaturesAVX512IFMA = FeatureAVX512F;
constexpr FeatureBitset ImpliedFeaturesAVX512VNNI = FeatureAVX512F;
constexpr FeatureBitset ImpliedFeaturesAVX512VPOPCNTDQ = FeatureAVX512F;
constexpr FeatureBitset ImpliedFeaturesAVX512VBMI = FeatureAVX512BW;
constexpr FeatureBitset ImpliedFeaturesAVX512VBMI2 = FeatureAVX512BW;
constexpr FeatureBitset ImpliedFeaturesAVX512VP2INTERSECT = FeatureAVX512F;
// FIXME: These two aren't really implemented and just exist in the feature
// list for __builtin_cpu_supports. So omit their dependencies.
constexpr FeatureBitset ImpliedFeaturesAVX5124FMAPS = {};
constexpr FeatureBitset ImpliedFeaturesAVX5124VNNIW = {};
// SSE4_A->FMA4->XOP chain.
constexpr FeatureBitset ImpliedFeaturesSSE4_A = FeatureSSE3;
constexpr FeatureBitset ImpliedFeaturesFMA4 = FeatureAVX | FeatureSSE4_A;
constexpr FeatureBitset ImpliedFeaturesXOP = FeatureFMA4;
// AMX Features
constexpr FeatureBitset ImpliedFeaturesAMX_TILE = {};
constexpr FeatureBitset ImpliedFeaturesAMX_BF16 = FeatureAMX_TILE;
constexpr FeatureBitset ImpliedFeaturesAMX_INT8 = FeatureAMX_TILE;
constexpr FeatureBitset ImpliedFeaturesHRESET = {};
static constexpr FeatureBitset ImpliedFeaturesAVX512FP16 =
FeatureAVX512BW | FeatureAVX512DQ | FeatureAVX512VL;
// Key Locker Features
constexpr FeatureBitset ImpliedFeaturesKL = FeatureSSE2;
constexpr FeatureBitset ImpliedFeaturesWIDEKL = FeatureKL;
// AVXVNNI Features
constexpr FeatureBitset ImpliedFeaturesAVXVNNI = FeatureAVX2;
constexpr FeatureInfo FeatureInfos[X86::CPU_FEATURE_MAX] = {
#define X86_FEATURE(ENUM, STR) {{STR}, ImpliedFeatures##ENUM},
#include "llvm/Support/X86TargetParser.def"
};
void llvm::X86::getFeaturesForCPU(StringRef CPU,
SmallVectorImpl<StringRef> &EnabledFeatures) {
auto I = llvm::find_if(Processors,
[&](const ProcInfo &P) { return P.Name == CPU; });
assert(I != std::end(Processors) && "Processor not found!");
FeatureBitset Bits = I->Features;
// Remove the 64-bit feature which we only use to validate if a CPU can
// be used with 64-bit mode.
Bits &= ~Feature64BIT;
// Add the string version of all set bits.
for (unsigned i = 0; i != CPU_FEATURE_MAX; ++i)
if (Bits[i] && !FeatureInfos[i].Name.empty())
EnabledFeatures.push_back(FeatureInfos[i].Name);
}
// For each feature that is (transitively) implied by this feature, set it.
static void getImpliedEnabledFeatures(FeatureBitset &Bits,
const FeatureBitset &Implies) {
// Fast path: Implies is often empty.
if (!Implies.any())
return;
FeatureBitset Prev;
Bits |= Implies;
do {
Prev = Bits;
for (unsigned i = CPU_FEATURE_MAX; i;)
if (Bits[--i])
Bits |= FeatureInfos[i].ImpliedFeatures;
} while (Prev != Bits);
}
/// Create bit vector of features that are implied disabled if the feature
/// passed in Value is disabled.
static void getImpliedDisabledFeatures(FeatureBitset &Bits, unsigned Value) {
// Check all features looking for any dependent on this feature. If we find
// one, mark it and recursively find any feature that depend on it.
FeatureBitset Prev;
Bits.set(Value);
do {
Prev = Bits;
for (unsigned i = 0; i != CPU_FEATURE_MAX; ++i)
if ((FeatureInfos[i].ImpliedFeatures & Bits).any())
Bits.set(i);
} while (Prev != Bits);
}
void llvm::X86::updateImpliedFeatures(
StringRef Feature, bool Enabled,
StringMap<bool> &Features) {
auto I = llvm::find_if(
FeatureInfos, [&](const FeatureInfo &FI) { return FI.Name == Feature; });
if (I == std::end(FeatureInfos)) {
// FIXME: This shouldn't happen, but may not have all features in the table
// yet.
return;
}
FeatureBitset ImpliedBits;
if (Enabled)
getImpliedEnabledFeatures(ImpliedBits, I->ImpliedFeatures);
else
getImpliedDisabledFeatures(ImpliedBits,
std::distance(std::begin(FeatureInfos), I));
// Update the map entry for all implied features.
for (unsigned i = 0; i != CPU_FEATURE_MAX; ++i)
if (ImpliedBits[i] && !FeatureInfos[i].Name.empty())
Features[FeatureInfos[i].Name] = Enabled;
}
uint64_t llvm::X86::getCpuSupportsMask(ArrayRef<StringRef> FeatureStrs) {
// Processor features and mapping to processor feature value.
uint64_t FeaturesMask = 0;
for (const StringRef &FeatureStr : FeatureStrs) {
unsigned Feature = StringSwitch<unsigned>(FeatureStr)
#define X86_FEATURE_COMPAT(ENUM, STR, PRIORITY) \
.Case(STR, llvm::X86::FEATURE_##ENUM)
#include "llvm/Support/X86TargetParser.def"
;
FeaturesMask |= (1ULL << Feature);
}
return FeaturesMask;
}
unsigned llvm::X86::getFeaturePriority(ProcessorFeatures Feat) {
#ifndef NDEBUG
// Check that priorities are set properly in the .def file. We expect that
// "compat" features are assigned non-duplicate consecutive priorities
// starting from zero (0, 1, ..., num_features - 1).
#define X86_FEATURE_COMPAT(ENUM, STR, PRIORITY) PRIORITY,
unsigned Priorities[] = {
#include "llvm/Support/X86TargetParser.def"
std::numeric_limits<unsigned>::max() // Need to consume last comma.
};
std::array<unsigned, array_lengthof(Priorities) - 1> HelperList;
std::iota(HelperList.begin(), HelperList.end(), 0);
assert(std::is_permutation(HelperList.begin(), HelperList.end(),
std::begin(Priorities),
std::prev(std::end(Priorities))) &&
"Priorities don't form consecutive range!");
#endif
switch (Feat) {
#define X86_FEATURE_COMPAT(ENUM, STR, PRIORITY) \
case X86::FEATURE_##ENUM: \
return PRIORITY;
#include "llvm/Support/X86TargetParser.def"
default:
llvm_unreachable("No Feature Priority for non-CPUSupports Features");
}
}