c++ Помогите с выводом лога [требует правки]

266

13 февраля 2017, 15:23

Ребят есть вот такой код:

// InstructionSet.cpp   
// Compile by using: cl /EHsc /W4 InstructionSet.cpp  
// processor: x86, x64  
// Uses the __cpuid intrinsic to get information about   
// CPU extended instruction set support.  
#include <iostream>  
#include <vector>  
#include <bitset>  
#include <array>  
#include <string>  
#include <intrin.h>  
class InstructionSet  
{  
// forward declarations  
class InstructionSet_Internal;  
public:  
// getters  
static std::string Vendor(void) { return CPU_Rep.vendor_; }  
static std::string Brand(void) { return CPU_Rep.brand_; }  
static bool SSE3(void) { return CPU_Rep.f_1_ECX_[0]; }  
static bool PCLMULQDQ(void) { return CPU_Rep.f_1_ECX_[1]; }  
static bool MONITOR(void) { return CPU_Rep.f_1_ECX_[3]; }  
static bool SSSE3(void) { return CPU_Rep.f_1_ECX_[9]; }  
static bool FMA(void) { return CPU_Rep.f_1_ECX_[12]; }  
static bool CMPXCHG16B(void) { return CPU_Rep.f_1_ECX_[13]; }  
static bool SSE41(void) { return CPU_Rep.f_1_ECX_[19]; }  
static bool SSE42(void) { return CPU_Rep.f_1_ECX_[20]; }  
static bool MOVBE(void) { return CPU_Rep.f_1_ECX_[22]; }  
static bool POPCNT(void) { return CPU_Rep.f_1_ECX_[23]; }  
static bool AES(void) { return CPU_Rep.f_1_ECX_[25]; }  
static bool XSAVE(void) { return CPU_Rep.f_1_ECX_[26]; }  
static bool OSXSAVE(void) { return CPU_Rep.f_1_ECX_[27]; }  
static bool AVX(void) { return CPU_Rep.f_1_ECX_[28]; }  
static bool F16C(void) { return CPU_Rep.f_1_ECX_[29]; }  
static bool RDRAND(void) { return CPU_Rep.f_1_ECX_[30]; }  
static bool MSR(void) { return CPU_Rep.f_1_EDX_[5]; }  
static bool CX8(void) { return CPU_Rep.f_1_EDX_[8]; }  
static bool SEP(void) { return CPU_Rep.f_1_EDX_[11]; }  
static bool CMOV(void) { return CPU_Rep.f_1_EDX_[15]; }  
static bool CLFSH(void) { return CPU_Rep.f_1_EDX_[19]; }  
static bool MMX(void) { return CPU_Rep.f_1_EDX_[23]; }  
static bool FXSR(void) { return CPU_Rep.f_1_EDX_[24]; }  
static bool SSE(void) { return CPU_Rep.f_1_EDX_[25]; }  
static bool SSE2(void) { return CPU_Rep.f_1_EDX_[26]; }  
static bool FSGSBASE(void) { return CPU_Rep.f_7_EBX_[0]; }  
static bool BMI1(void) { return CPU_Rep.f_7_EBX_[3]; }  
static bool HLE(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_7_EBX_[4]; }  
static bool AVX2(void) { return CPU_Rep.f_7_EBX_[5]; }  
static bool BMI2(void) { return CPU_Rep.f_7_EBX_[8]; }  
static bool ERMS(void) { return CPU_Rep.f_7_EBX_[9]; }  
static bool INVPCID(void) { return CPU_Rep.f_7_EBX_[10]; }  
static bool RTM(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_7_EBX_[11]; }  
static bool AVX512F(void) { return CPU_Rep.f_7_EBX_[16]; }  
static bool RDSEED(void) { return CPU_Rep.f_7_EBX_[18]; }  
static bool ADX(void) { return CPU_Rep.f_7_EBX_[19]; }  
static bool AVX512PF(void) { return CPU_Rep.f_7_EBX_[26]; }  
static bool AVX512ER(void) { return CPU_Rep.f_7_EBX_[27]; }  
static bool AVX512CD(void) { return CPU_Rep.f_7_EBX_[28]; }  
static bool SHA(void) { return CPU_Rep.f_7_EBX_[29]; }  
static bool PREFETCHWT1(void) { return CPU_Rep.f_7_ECX_[0]; }  
static bool LAHF(void) { return CPU_Rep.f_81_ECX_[0]; }  
static bool LZCNT(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_81_ECX_[5]; }  
static bool ABM(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[5]; }  
static bool SSE4a(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[6]; }  
static bool XOP(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[11]; }  
static bool TBM(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[21]; }  
static bool SYSCALL(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_81_EDX_[11]; }  
static bool MMXEXT(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_EDX_[22]; }  
static bool RDTSCP(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_81_EDX_[27]; }  
static bool _3DNOWEXT(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_EDX_[30]; }  
static bool _3DNOW(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_EDX_[31]; }  
private:  
static const InstructionSet_Internal CPU_Rep;  
class InstructionSet_Internal  
{  
public:  
    InstructionSet_Internal()  
        : nIds_{ 0 },  
        nExIds_{ 0 },  
        isIntel_{ false },  
        isAMD_{ false },  
        f_1_ECX_{ 0 },  
        f_1_EDX_{ 0 },  
        f_7_EBX_{ 0 },  
        f_7_ECX_{ 0 },  
        f_81_ECX_{ 0 },  
        f_81_EDX_{ 0 },  
        data_{},  
        extdata_{}  
    {  
        //int cpuInfo[4] = {-1};  
        std::array<int, 4> cpui;  
        // Calling __cpuid with 0x0 as the function_id argument  
        // gets the number of the highest valid function ID.  
        __cpuid(cpui.data(), 0);  
        nIds_ = cpui[0];  
        for (int i = 0; i <= nIds_; ++i)  
        {  
            __cpuidex(cpui.data(), i, 0);  
            data_.push_back(cpui);  
        }  
        // Capture vendor string  
        char vendor[0x20];  
        memset(vendor, 0, sizeof(vendor));  
        *reinterpret_cast<int*>(vendor) = data_[0][1];  
        *reinterpret_cast<int*>(vendor + 4) = data_[0][3];  
        *reinterpret_cast<int*>(vendor + 8) = data_[0][2];  
        vendor_ = vendor;  
        if (vendor_ == "GenuineIntel")  
        {  
            isIntel_ = true;  
        }  
        else if (vendor_ == "AuthenticAMD")  
        {  
            isAMD_ = true;  
        }  
        // load bitset with flags for function 0x00000001  
        if (nIds_ >= 1)  
        {  
            f_1_ECX_ = data_[1][2];  
            f_1_EDX_ = data_[1][3];  
        }  
        // load bitset with flags for function 0x00000007  
        if (nIds_ >= 7)  
        {  
            f_7_EBX_ = data_[7][1];  
            f_7_ECX_ = data_[7][2];  
        }  
        // Calling __cpuid with 0x80000000 as the function_id argument  
        // gets the number of the highest valid extended ID.  
        __cpuid(cpui.data(), 0x80000000);  
        nExIds_ = cpui[0];  
        char brand[0x40];  
        memset(brand, 0, sizeof(brand));  
        for (int i = 0x80000000; i <= nExIds_; ++i)  
        {  
            __cpuidex(cpui.data(), i, 0);  
            extdata_.push_back(cpui);  
        }  
        // load bitset with flags for function 0x80000001  
        if (nExIds_ >= 0x80000001)  
        {  
            f_81_ECX_ = extdata_[1][2];  
            f_81_EDX_ = extdata_[1][3];  
        }  
        // Interpret CPU brand string if reported  
        if (nExIds_ >= 0x80000004)  
        {  
            memcpy(brand, extdata_[2].data(), sizeof(cpui));  
            memcpy(brand + 16, extdata_[3].data(), sizeof(cpui));  
            memcpy(brand + 32, extdata_[4].data(), sizeof(cpui));  
            brand_ = brand;  
        }  
    };  
    int nIds_;  
    int nExIds_;  
    std::string vendor_;  
    std::string brand_;  
    bool isIntel_;  
    bool isAMD_;  
    std::bitset<32> f_1_ECX_;  
    std::bitset<32> f_1_EDX_;  
    std::bitset<32> f_7_EBX_;  
    std::bitset<32> f_7_ECX_;  
    std::bitset<32> f_81_ECX_;  
    std::bitset<32> f_81_EDX_;  
    std::vector<std::array<int, 4>> data_;  
    std::vector<std::array<int, 4>> extdata_;  
};  
};  
// Initialize static member data  
const InstructionSet::InstructionSet_Internal InstructionSet::CPU_Rep;  
// Print out supported instruction set extensions  
int main()  
{  
auto& outstream = std::cout;  
auto support_message = [&outstream](std::string isa_feature, bool is_supported) {  
    outstream << isa_feature << (is_supported ? " supported" : " not supported") << std::endl;  
};  
std::cout << InstructionSet::Vendor() << std::endl;  
std::cout << InstructionSet::Brand() << std::endl;  
support_message("3DNOW",       InstructionSet::_3DNOW());  
support_message("3DNOWEXT",    InstructionSet::_3DNOWEXT());  
support_message("ABM",         InstructionSet::ABM());  
support_message("ADX",         InstructionSet::ADX());  
support_message("AES",         InstructionSet::AES());  
support_message("AVX",         InstructionSet::AVX());  
support_message("AVX2",        InstructionSet::AVX2());  
support_message("AVX512CD",    InstructionSet::AVX512CD());  
support_message("AVX512ER",    InstructionSet::AVX512ER());  
support_message("AVX512F",     InstructionSet::AVX512F());  
support_message("AVX512PF",    InstructionSet::AVX512PF());  
support_message("BMI1",        InstructionSet::BMI1());  
support_message("BMI2",        InstructionSet::BMI2());  
support_message("CLFSH",       InstructionSet::CLFSH());  
support_message("CMPXCHG16B",  InstructionSet::CMPXCHG16B());  
support_message("CX8",         InstructionSet::CX8());  
support_message("ERMS",        InstructionSet::ERMS());  
support_message("F16C",        InstructionSet::F16C());  
support_message("FMA",         InstructionSet::FMA());  
support_message("FSGSBASE",    InstructionSet::FSGSBASE());  
support_message("FXSR",        InstructionSet::FXSR());  
support_message("HLE",         InstructionSet::HLE());  
support_message("INVPCID",     InstructionSet::INVPCID());  
support_message("LAHF",        InstructionSet::LAHF());  
support_message("LZCNT",       InstructionSet::LZCNT());  
support_message("MMX",         InstructionSet::MMX());  
support_message("MMXEXT",      InstructionSet::MMXEXT());  
support_message("MONITOR",     InstructionSet::MONITOR());  
support_message("MOVBE",       InstructionSet::MOVBE());  
support_message("MSR",         InstructionSet::MSR());  
support_message("OSXSAVE",     InstructionSet::OSXSAVE());  
support_message("PCLMULQDQ",   InstructionSet::PCLMULQDQ());  
support_message("POPCNT",      InstructionSet::POPCNT());  
support_message("PREFETCHWT1", InstructionSet::PREFETCHWT1());  
support_message("RDRAND",      InstructionSet::RDRAND());  
support_message("RDSEED",      InstructionSet::RDSEED());  
support_message("RDTSCP",      InstructionSet::RDTSCP());  
support_message("RTM",         InstructionSet::RTM());  
support_message("SEP",         InstructionSet::SEP());  
support_message("SHA",         InstructionSet::SHA());  
support_message("SSE",         InstructionSet::SSE());  
support_message("SSE2",        InstructionSet::SSE2());  
support_message("SSE3",        InstructionSet::SSE3());  
support_message("SSE4.1",      InstructionSet::SSE41());  
support_message("SSE4.2",      InstructionSet::SSE42());  
support_message("SSE4a",       InstructionSet::SSE4a());  
support_message("SSSE3",       InstructionSet::SSSE3());  
support_message("SYSCALL",     InstructionSet::SYSCALL());  
support_message("TBM",         InstructionSet::TBM());  
support_message("XOP",         InstructionSet::XOP());  
support_message("XSAVE",       InstructionSet::XSAVE());  
}

Кто шарит в с++ не могли бы Вы добавить вывод лога в txt пожалуйста.

Answer 1

Всем Спасибо. Сделал вот так.

// InstructionSet.cpp   
// Compile by using: cl /EHsc /W4 InstructionSet.cpp  
// processor: x86, x64  
// Uses the __cpuid intrinsic to get information about   
// CPU extended instruction set support.  
#include <iostream>
#include <fstream>
#include <vector>  
#include <bitset>  
#include <array>  
#include <string>  
#include <intrin.h>
using namespace std;
class InstructionSet  
{  
// forward declarations  
class InstructionSet_Internal;  
public:  
// getters  
static std::string Vendor(void) { return CPU_Rep.vendor_; }  
static std::string Brand(void) { return CPU_Rep.brand_; }  
static bool SSE3(void) { return CPU_Rep.f_1_ECX_[0]; }  
static bool PCLMULQDQ(void) { return CPU_Rep.f_1_ECX_[1]; }  
static bool MONITOR(void) { return CPU_Rep.f_1_ECX_[3]; }  
static bool SSSE3(void) { return CPU_Rep.f_1_ECX_[9]; }  
static bool FMA(void) { return CPU_Rep.f_1_ECX_[12]; }  
static bool CMPXCHG16B(void) { return CPU_Rep.f_1_ECX_[13]; }  
static bool SSE41(void) { return CPU_Rep.f_1_ECX_[19]; }  
static bool SSE42(void) { return CPU_Rep.f_1_ECX_[20]; }  
static bool MOVBE(void) { return CPU_Rep.f_1_ECX_[22]; }  
static bool POPCNT(void) { return CPU_Rep.f_1_ECX_[23]; }  
static bool AES(void) { return CPU_Rep.f_1_ECX_[25]; }  
static bool XSAVE(void) { return CPU_Rep.f_1_ECX_[26]; }  
static bool OSXSAVE(void) { return CPU_Rep.f_1_ECX_[27]; }  
static bool AVX(void) { return CPU_Rep.f_1_ECX_[28]; }  
static bool F16C(void) { return CPU_Rep.f_1_ECX_[29]; }  
static bool RDRAND(void) { return CPU_Rep.f_1_ECX_[30]; }  
static bool MSR(void) { return CPU_Rep.f_1_EDX_[5]; }  
static bool CX8(void) { return CPU_Rep.f_1_EDX_[8]; }  
static bool SEP(void) { return CPU_Rep.f_1_EDX_[11]; }  
static bool CMOV(void) { return CPU_Rep.f_1_EDX_[15]; }  
static bool CLFSH(void) { return CPU_Rep.f_1_EDX_[19]; }  
static bool MMX(void) { return CPU_Rep.f_1_EDX_[23]; }  
static bool FXSR(void) { return CPU_Rep.f_1_EDX_[24]; }  
static bool SSE(void) { return CPU_Rep.f_1_EDX_[25]; }  
static bool SSE2(void) { return CPU_Rep.f_1_EDX_[26]; }  
static bool FSGSBASE(void) { return CPU_Rep.f_7_EBX_[0]; }  
static bool BMI1(void) { return CPU_Rep.f_7_EBX_[3]; }  
static bool HLE(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_7_EBX_[4]; }  
static bool AVX2(void) { return CPU_Rep.f_7_EBX_[5]; }  
static bool BMI2(void) { return CPU_Rep.f_7_EBX_[8]; }  
static bool ERMS(void) { return CPU_Rep.f_7_EBX_[9]; }  
static bool INVPCID(void) { return CPU_Rep.f_7_EBX_[10]; }  
static bool RTM(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_7_EBX_[11]; }  
static bool AVX512F(void) { return CPU_Rep.f_7_EBX_[16]; }  
static bool RDSEED(void) { return CPU_Rep.f_7_EBX_[18]; }  
static bool ADX(void) { return CPU_Rep.f_7_EBX_[19]; }  
static bool AVX512PF(void) { return CPU_Rep.f_7_EBX_[26]; }  
static bool AVX512ER(void) { return CPU_Rep.f_7_EBX_[27]; }  
static bool AVX512CD(void) { return CPU_Rep.f_7_EBX_[28]; }  
static bool SHA(void) { return CPU_Rep.f_7_EBX_[29]; }  
static bool PREFETCHWT1(void) { return CPU_Rep.f_7_ECX_[0]; }  
static bool LAHF(void) { return CPU_Rep.f_81_ECX_[0]; }  
static bool LZCNT(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_81_ECX_[5]; }  
static bool ABM(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[5]; }  
static bool SSE4a(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[6]; }  
static bool XOP(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[11]; }  
static bool TBM(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[21]; }  
static bool SYSCALL(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_81_EDX_[11]; }  
static bool MMXEXT(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_EDX_[22]; }  
static bool RDTSCP(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_81_EDX_[27]; }  
static bool _3DNOWEXT(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_EDX_[30]; }  
static bool _3DNOW(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_EDX_[31]; }  
private:  
static const InstructionSet_Internal CPU_Rep;  
class InstructionSet_Internal  
{  
public:  
    InstructionSet_Internal()  
        : nIds_{ 0 },  
        nExIds_{ 0 },  
        isIntel_{ false },  
        isAMD_{ false },  
        f_1_ECX_{ 0 },  
        f_1_EDX_{ 0 },  
        f_7_EBX_{ 0 },  
        f_7_ECX_{ 0 },  
        f_81_ECX_{ 0 },  
        f_81_EDX_{ 0 },  
        data_{},  
        extdata_{}  
    {  
        //int cpuInfo[4] = {-1};  
        std::array<int, 4> cpui;  
        // Calling __cpuid with 0x0 as the function_id argument  
        // gets the number of the highest valid function ID.  
        __cpuid(cpui.data(), 0);  
        nIds_ = cpui[0];  
        for (int i = 0; i <= nIds_; ++i)  
        {  
            __cpuidex(cpui.data(), i, 0);  
            data_.push_back(cpui);  
        }  
        // Capture vendor string  
        char vendor[0x20];  
        memset(vendor, 0, sizeof(vendor));  
        *reinterpret_cast<int*>(vendor) = data_[0][1];  
        *reinterpret_cast<int*>(vendor + 4) = data_[0][3];  
        *reinterpret_cast<int*>(vendor + 8) = data_[0][2];  
        vendor_ = vendor;  
        if (vendor_ == "GenuineIntel")  
        {  
            isIntel_ = true;  
        }  
        else if (vendor_ == "AuthenticAMD")  
        {  
            isAMD_ = true;  
        }  
        // load bitset with flags for function 0x00000001  
        if (nIds_ >= 1)  
        {  
            f_1_ECX_ = data_[1][2];  
            f_1_EDX_ = data_[1][3];  
        }  
        // load bitset with flags for function 0x00000007  
        if (nIds_ >= 7)  
        {  
            f_7_EBX_ = data_[7][1];  
            f_7_ECX_ = data_[7][2];  
        }  
        // Calling __cpuid with 0x80000000 as the function_id argument  
        // gets the number of the highest valid extended ID.  
        __cpuid(cpui.data(), 0x80000000);  
        nExIds_ = cpui[0];  
        char brand[0x40];  
        memset(brand, 0, sizeof(brand));  
        for (int i = 0x80000000; i <= nExIds_; ++i)  
        {  
            __cpuidex(cpui.data(), i, 0);  
            extdata_.push_back(cpui);  
        }  
        // load bitset with flags for function 0x80000001  
        if (nExIds_ >= 0x80000001)  
        {  
            f_81_ECX_ = extdata_[1][2];  
            f_81_EDX_ = extdata_[1][3];  
        }  
        // Interpret CPU brand string if reported  
        if (nExIds_ >= 0x80000004)  
        {  
            memcpy(brand, extdata_[2].data(), sizeof(cpui));  
            memcpy(brand + 16, extdata_[3].data(), sizeof(cpui));  
            memcpy(brand + 32, extdata_[4].data(), sizeof(cpui));  
            brand_ = brand;  
        }  
    };  
    int nIds_;  
    int nExIds_;  
    std::string vendor_;  
    std::string brand_;  
    bool isIntel_;  
    bool isAMD_;  
    std::bitset<32> f_1_ECX_;  
    std::bitset<32> f_1_EDX_;  
    std::bitset<32> f_7_EBX_;  
    std::bitset<32> f_7_ECX_;  
    std::bitset<32> f_81_ECX_;  
    std::bitset<32> f_81_EDX_;  
    std::vector<std::array<int, 4>> data_;  
    std::vector<std::array<int, 4>> extdata_;  
};  
};
// Initialize static member data  
const InstructionSet::InstructionSet_Internal InstructionSet::CPU_Rep;
// Print out supported instruction set extensions
int main()
{
ofstream log("Logfile.txt");
auto support_message = [&log](std::string isa_feature, bool is_supported) {   log << isa_feature << (is_supported ? " supported" : " not supported") << std::endl;  };
std::cout << InstructionSet::Vendor() << std::endl;  
std::cout << InstructionSet::Brand() << std::endl;  
support_message("3DNOW",       InstructionSet::_3DNOW());  
support_message("3DNOWEXT",    InstructionSet::_3DNOWEXT());  
support_message("ABM",         InstructionSet::ABM());  
support_message("ADX",         InstructionSet::ADX());  
support_message("AES",         InstructionSet::AES());  
support_message("AVX",         InstructionSet::AVX());  
support_message("AVX2",        InstructionSet::AVX2());  
support_message("AVX512CD",    InstructionSet::AVX512CD());  
support_message("AVX512ER",    InstructionSet::AVX512ER());  
support_message("AVX512F",     InstructionSet::AVX512F());  
support_message("AVX512PF",    InstructionSet::AVX512PF());  
support_message("BMI1",        InstructionSet::BMI1());  
support_message("BMI2",        InstructionSet::BMI2());  
support_message("CLFSH",       InstructionSet::CLFSH());  
support_message("CMPXCHG16B",  InstructionSet::CMPXCHG16B());  
support_message("CX8",         InstructionSet::CX8());  
support_message("ERMS",        InstructionSet::ERMS());  
support_message("F16C",        InstructionSet::F16C());  
support_message("FMA",         InstructionSet::FMA());  
support_message("FSGSBASE",    InstructionSet::FSGSBASE());  
support_message("FXSR",        InstructionSet::FXSR());  
support_message("HLE",         InstructionSet::HLE());  
support_message("INVPCID",     InstructionSet::INVPCID());  
support_message("LAHF",        InstructionSet::LAHF());  
support_message("LZCNT",       InstructionSet::LZCNT());  
support_message("MMX",         InstructionSet::MMX());  
support_message("MMXEXT",      InstructionSet::MMXEXT());  
support_message("MONITOR",     InstructionSet::MONITOR());  
support_message("MOVBE",       InstructionSet::MOVBE());  
support_message("MSR",         InstructionSet::MSR());  
support_message("OSXSAVE",     InstructionSet::OSXSAVE());  
support_message("PCLMULQDQ",   InstructionSet::PCLMULQDQ());  
support_message("POPCNT",      InstructionSet::POPCNT());  
support_message("PREFETCHWT1", InstructionSet::PREFETCHWT1());  
support_message("RDRAND",      InstructionSet::RDRAND());  
support_message("RDSEED",      InstructionSet::RDSEED());  
support_message("RDTSCP",      InstructionSet::RDTSCP());  
support_message("RTM",         InstructionSet::RTM());  
support_message("SEP",         InstructionSet::SEP());  
support_message("SHA",         InstructionSet::SHA());  
support_message("SSE",         InstructionSet::SSE());  
support_message("SSE2",        InstructionSet::SSE2());  
support_message("SSE3",        InstructionSet::SSE3());  
support_message("SSE4.1",      InstructionSet::SSE41());  
support_message("SSE4.2",      InstructionSet::SSE42());  
support_message("SSE4a",       InstructionSet::SSE4a());  
support_message("SSSE3",       InstructionSet::SSSE3());  
support_message("SYSCALL",     InstructionSet::SYSCALL());  
support_message("TBM",         InstructionSet::TBM());  
support_message("XOP",         InstructionSet::XOP());  
support_message("XSAVE",       InstructionSet::XSAVE());
}

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