From c6f7b720ecfa6db40c648eb05e319f8a817110e9 Mon Sep 17 00:00:00 2001 From: Mircea Trofin Date: Wed, 13 Oct 2021 22:43:08 -0700 Subject: [benchmarks] Move libcxx's fork of google/benchmark and llvm/utils' under third-party This change: - moves the libcxx copy of `google/benchmark` to `third-party/benchmkark` - points the 2 uses of the library (libcxx and llvm/utils) to this copy We picked the licxx copy because it is the most up to date. Differential Revision: https://reviews.llvm.org/D112012 --- third-party/benchmark/src/sysinfo.cc | 726 +++++++++++++++++++++++++++++++++++ 1 file changed, 726 insertions(+) create mode 100644 third-party/benchmark/src/sysinfo.cc (limited to 'third-party/benchmark/src/sysinfo.cc') diff --git a/third-party/benchmark/src/sysinfo.cc b/third-party/benchmark/src/sysinfo.cc new file mode 100644 index 0000000..c1969ea --- /dev/null +++ b/third-party/benchmark/src/sysinfo.cc @@ -0,0 +1,726 @@ +// Copyright 2015 Google Inc. All rights reserved. +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +#include "internal_macros.h" + +#ifdef BENCHMARK_OS_WINDOWS +#include +#undef StrCat // Don't let StrCat in string_util.h be renamed to lstrcatA +#include +#include +#include +#else +#include +#ifndef BENCHMARK_OS_FUCHSIA +#include +#endif +#include +#include // this header must be included before 'sys/sysctl.h' to avoid compilation error on FreeBSD +#include +#if defined BENCHMARK_OS_FREEBSD || defined BENCHMARK_OS_MACOSX || \ + defined BENCHMARK_OS_NETBSD || defined BENCHMARK_OS_OPENBSD || \ + defined BENCHMARK_OS_DRAGONFLY +#define BENCHMARK_HAS_SYSCTL +#include +#endif +#endif +#if defined(BENCHMARK_OS_SOLARIS) +#include +#endif +#if defined(BENCHMARK_OS_QNX) +#include +#endif + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "check.h" +#include "cycleclock.h" +#include "internal_macros.h" +#include "log.h" +#include "sleep.h" +#include "string_util.h" + +namespace benchmark { +namespace { + +void PrintImp(std::ostream& out) { out << std::endl; } + +template +void PrintImp(std::ostream& out, First&& f, Rest&&... rest) { + out << std::forward(f); + PrintImp(out, std::forward(rest)...); +} + +template +BENCHMARK_NORETURN void PrintErrorAndDie(Args&&... args) { + PrintImp(std::cerr, std::forward(args)...); + std::exit(EXIT_FAILURE); +} + +#ifdef BENCHMARK_HAS_SYSCTL + +/// ValueUnion - A type used to correctly alias the byte-for-byte output of +/// `sysctl` with the result type it's to be interpreted as. +struct ValueUnion { + union DataT { + uint32_t uint32_value; + uint64_t uint64_value; + // For correct aliasing of union members from bytes. + char bytes[8]; + }; + using DataPtr = std::unique_ptr; + + // The size of the data union member + its trailing array size. + size_t Size; + DataPtr Buff; + + public: + ValueUnion() : Size(0), Buff(nullptr, &std::free) {} + + explicit ValueUnion(size_t BuffSize) + : Size(sizeof(DataT) + BuffSize), + Buff(::new (std::malloc(Size)) DataT(), &std::free) {} + + ValueUnion(ValueUnion&& other) = default; + + explicit operator bool() const { return bool(Buff); } + + char* data() const { return Buff->bytes; } + + std::string GetAsString() const { return std::string(data()); } + + int64_t GetAsInteger() const { + if (Size == sizeof(Buff->uint32_value)) + return static_cast(Buff->uint32_value); + else if (Size == sizeof(Buff->uint64_value)) + return static_cast(Buff->uint64_value); + BENCHMARK_UNREACHABLE(); + } + + uint64_t GetAsUnsigned() const { + if (Size == sizeof(Buff->uint32_value)) + return Buff->uint32_value; + else if (Size == sizeof(Buff->uint64_value)) + return Buff->uint64_value; + BENCHMARK_UNREACHABLE(); + } + + template + std::array GetAsArray() { + const int ArrSize = sizeof(T) * N; + CHECK_LE(ArrSize, Size); + std::array Arr; + std::memcpy(Arr.data(), data(), ArrSize); + return Arr; + } +}; + +ValueUnion GetSysctlImp(std::string const& Name) { +#if defined BENCHMARK_OS_OPENBSD + int mib[2]; + + mib[0] = CTL_HW; + if ((Name == "hw.ncpu") || (Name == "hw.cpuspeed")){ + ValueUnion buff(sizeof(int)); + + if (Name == "hw.ncpu") { + mib[1] = HW_NCPU; + } else { + mib[1] = HW_CPUSPEED; + } + + if (sysctl(mib, 2, buff.data(), &buff.Size, nullptr, 0) == -1) { + return ValueUnion(); + } + return buff; + } + return ValueUnion(); +#else + size_t CurBuffSize = 0; + if (sysctlbyname(Name.c_str(), nullptr, &CurBuffSize, nullptr, 0) == -1) + return ValueUnion(); + + ValueUnion buff(CurBuffSize); + if (sysctlbyname(Name.c_str(), buff.data(), &buff.Size, nullptr, 0) == 0) + return buff; + return ValueUnion(); +#endif +} + +BENCHMARK_MAYBE_UNUSED +bool GetSysctl(std::string const& Name, std::string* Out) { + Out->clear(); + auto Buff = GetSysctlImp(Name); + if (!Buff) return false; + Out->assign(Buff.data()); + return true; +} + +template ::value>::type> +bool GetSysctl(std::string const& Name, Tp* Out) { + *Out = 0; + auto Buff = GetSysctlImp(Name); + if (!Buff) return false; + *Out = static_cast(Buff.GetAsUnsigned()); + return true; +} + +template +bool GetSysctl(std::string const& Name, std::array* Out) { + auto Buff = GetSysctlImp(Name); + if (!Buff) return false; + *Out = Buff.GetAsArray(); + return true; +} +#endif + +template +bool ReadFromFile(std::string const& fname, ArgT* arg) { + *arg = ArgT(); + std::ifstream f(fname.c_str()); + if (!f.is_open()) return false; + f >> *arg; + return f.good(); +} + +CPUInfo::Scaling CpuScaling(int num_cpus) { + // We don't have a valid CPU count, so don't even bother. + if (num_cpus <= 0) return CPUInfo::Scaling::UNKNOWN; +#ifdef BENCHMARK_OS_QNX + return CPUInfo::Scaling::UNKNOWN; +#endif +#ifndef BENCHMARK_OS_WINDOWS + // On Linux, the CPUfreq subsystem exposes CPU information as files on the + // local file system. If reading the exported files fails, then we may not be + // running on Linux, so we silently ignore all the read errors. + std::string res; + for (int cpu = 0; cpu < num_cpus; ++cpu) { + std::string governor_file = + StrCat("/sys/devices/system/cpu/cpu", cpu, "/cpufreq/scaling_governor"); + if (ReadFromFile(governor_file, &res) && res != "performance") return CPUInfo::Scaling::ENABLED; + } + return CPUInfo::Scaling::DISABLED; +#endif + return CPUInfo::Scaling::UNKNOWN; +} + +int CountSetBitsInCPUMap(std::string Val) { + auto CountBits = [](std::string Part) { + using CPUMask = std::bitset; + Part = "0x" + Part; + CPUMask Mask(benchmark::stoul(Part, nullptr, 16)); + return static_cast(Mask.count()); + }; + size_t Pos; + int total = 0; + while ((Pos = Val.find(',')) != std::string::npos) { + total += CountBits(Val.substr(0, Pos)); + Val = Val.substr(Pos + 1); + } + if (!Val.empty()) { + total += CountBits(Val); + } + return total; +} + +BENCHMARK_MAYBE_UNUSED +std::vector GetCacheSizesFromKVFS() { + std::vector res; + std::string dir = "/sys/devices/system/cpu/cpu0/cache/"; + int Idx = 0; + while (true) { + CPUInfo::CacheInfo info; + std::string FPath = StrCat(dir, "index", Idx++, "/"); + std::ifstream f(StrCat(FPath, "size").c_str()); + if (!f.is_open()) break; + std::string suffix; + f >> info.size; + if (f.fail()) + PrintErrorAndDie("Failed while reading file '", FPath, "size'"); + if (f.good()) { + f >> suffix; + if (f.bad()) + PrintErrorAndDie( + "Invalid cache size format: failed to read size suffix"); + else if (f && suffix != "K") + PrintErrorAndDie("Invalid cache size format: Expected bytes ", suffix); + else if (suffix == "K") + info.size *= 1024; + } + if (!ReadFromFile(StrCat(FPath, "type"), &info.type)) + PrintErrorAndDie("Failed to read from file ", FPath, "type"); + if (!ReadFromFile(StrCat(FPath, "level"), &info.level)) + PrintErrorAndDie("Failed to read from file ", FPath, "level"); + std::string map_str; + if (!ReadFromFile(StrCat(FPath, "shared_cpu_map"), &map_str)) + PrintErrorAndDie("Failed to read from file ", FPath, "shared_cpu_map"); + info.num_sharing = CountSetBitsInCPUMap(map_str); + res.push_back(info); + } + + return res; +} + +#ifdef BENCHMARK_OS_MACOSX +std::vector GetCacheSizesMacOSX() { + std::vector res; + std::array CacheCounts{{0, 0, 0, 0}}; + GetSysctl("hw.cacheconfig", &CacheCounts); + + struct { + std::string name; + std::string type; + int level; + uint64_t num_sharing; + } Cases[] = {{"hw.l1dcachesize", "Data", 1, CacheCounts[1]}, + {"hw.l1icachesize", "Instruction", 1, CacheCounts[1]}, + {"hw.l2cachesize", "Unified", 2, CacheCounts[2]}, + {"hw.l3cachesize", "Unified", 3, CacheCounts[3]}}; + for (auto& C : Cases) { + int val; + if (!GetSysctl(C.name, &val)) continue; + CPUInfo::CacheInfo info; + info.type = C.type; + info.level = C.level; + info.size = val; + info.num_sharing = static_cast(C.num_sharing); + res.push_back(std::move(info)); + } + return res; +} +#elif defined(BENCHMARK_OS_WINDOWS) +std::vector GetCacheSizesWindows() { + std::vector res; + DWORD buffer_size = 0; + using PInfo = SYSTEM_LOGICAL_PROCESSOR_INFORMATION; + using CInfo = CACHE_DESCRIPTOR; + + using UPtr = std::unique_ptr; + GetLogicalProcessorInformation(nullptr, &buffer_size); + UPtr buff((PInfo*)malloc(buffer_size), &std::free); + if (!GetLogicalProcessorInformation(buff.get(), &buffer_size)) + PrintErrorAndDie("Failed during call to GetLogicalProcessorInformation: ", + GetLastError()); + + PInfo* it = buff.get(); + PInfo* end = buff.get() + (buffer_size / sizeof(PInfo)); + + for (; it != end; ++it) { + if (it->Relationship != RelationCache) continue; + using BitSet = std::bitset; + BitSet B(it->ProcessorMask); + // To prevent duplicates, only consider caches where CPU 0 is specified + if (!B.test(0)) continue; + CInfo* Cache = &it->Cache; + CPUInfo::CacheInfo C; + C.num_sharing = static_cast(B.count()); + C.level = Cache->Level; + C.size = Cache->Size; + switch (Cache->Type) { + case CacheUnified: + C.type = "Unified"; + break; + case CacheInstruction: + C.type = "Instruction"; + break; + case CacheData: + C.type = "Data"; + break; + case CacheTrace: + C.type = "Trace"; + break; + default: + C.type = "Unknown"; + break; + } + res.push_back(C); + } + return res; +} +#elif BENCHMARK_OS_QNX +std::vector GetCacheSizesQNX() { + std::vector res; + struct cacheattr_entry *cache = SYSPAGE_ENTRY(cacheattr); + uint32_t const elsize = SYSPAGE_ELEMENT_SIZE(cacheattr); + int num = SYSPAGE_ENTRY_SIZE(cacheattr) / elsize ; + for(int i = 0; i < num; ++i ) { + CPUInfo::CacheInfo info; + switch (cache->flags){ + case CACHE_FLAG_INSTR : + info.type = "Instruction"; + info.level = 1; + break; + case CACHE_FLAG_DATA : + info.type = "Data"; + info.level = 1; + break; + case CACHE_FLAG_UNIFIED : + info.type = "Unified"; + info.level = 2; + break; + case CACHE_FLAG_SHARED : + info.type = "Shared"; + info.level = 3; + break; + default : + continue; + break; + } + info.size = cache->line_size * cache->num_lines; + info.num_sharing = 0; + res.push_back(std::move(info)); + cache = SYSPAGE_ARRAY_ADJ_OFFSET(cacheattr, cache, elsize); + } + return res; +} +#endif + +std::vector GetCacheSizes() { +#ifdef BENCHMARK_OS_MACOSX + return GetCacheSizesMacOSX(); +#elif defined(BENCHMARK_OS_WINDOWS) + return GetCacheSizesWindows(); +#elif defined(BENCHMARK_OS_QNX) + return GetCacheSizesQNX(); +#else + return GetCacheSizesFromKVFS(); +#endif +} + +std::string GetSystemName() { +#if defined(BENCHMARK_OS_WINDOWS) + std::string str; + const unsigned COUNT = MAX_COMPUTERNAME_LENGTH+1; + TCHAR hostname[COUNT] = {'\0'}; + DWORD DWCOUNT = COUNT; + if (!GetComputerName(hostname, &DWCOUNT)) + return std::string(""); +#ifndef UNICODE + str = std::string(hostname, DWCOUNT); +#else + //Using wstring_convert, Is deprecated in C++17 + using convert_type = std::codecvt_utf8; + std::wstring_convert converter; + std::wstring wStr(hostname, DWCOUNT); + str = converter.to_bytes(wStr); +#endif + return str; +#else // defined(BENCHMARK_OS_WINDOWS) +#ifndef HOST_NAME_MAX +#ifdef BENCHMARK_HAS_SYSCTL // BSD/Mac Doesnt have HOST_NAME_MAX defined +#define HOST_NAME_MAX 64 +#elif defined(BENCHMARK_OS_NACL) +#define HOST_NAME_MAX 64 +#elif defined(BENCHMARK_OS_QNX) +#define HOST_NAME_MAX 154 +#elif defined(BENCHMARK_OS_RTEMS) +#define HOST_NAME_MAX 256 +#else +#warning "HOST_NAME_MAX not defined. using 64" +#define HOST_NAME_MAX 64 +#endif +#endif // def HOST_NAME_MAX + char hostname[HOST_NAME_MAX]; + int retVal = gethostname(hostname, HOST_NAME_MAX); + if (retVal != 0) return std::string(""); + return std::string(hostname); +#endif // Catch-all POSIX block. +} + +int GetNumCPUs() { +#ifdef BENCHMARK_HAS_SYSCTL + int NumCPU = -1; + if (GetSysctl("hw.ncpu", &NumCPU)) return NumCPU; + fprintf(stderr, "Err: %s\n", strerror(errno)); + std::exit(EXIT_FAILURE); +#elif defined(BENCHMARK_OS_WINDOWS) + SYSTEM_INFO sysinfo; + // Use memset as opposed to = {} to avoid GCC missing initializer false + // positives. + std::memset(&sysinfo, 0, sizeof(SYSTEM_INFO)); + GetSystemInfo(&sysinfo); + return sysinfo.dwNumberOfProcessors; // number of logical + // processors in the current + // group +#elif defined(BENCHMARK_OS_SOLARIS) + // Returns -1 in case of a failure. + int NumCPU = sysconf(_SC_NPROCESSORS_ONLN); + if (NumCPU < 0) { + fprintf(stderr, + "sysconf(_SC_NPROCESSORS_ONLN) failed with error: %s\n", + strerror(errno)); + } + return NumCPU; +#elif defined(BENCHMARK_OS_QNX) + return static_cast(_syspage_ptr->num_cpu); +#else + int NumCPUs = 0; + int MaxID = -1; + std::ifstream f("/proc/cpuinfo"); + if (!f.is_open()) { + std::cerr << "failed to open /proc/cpuinfo\n"; + return -1; + } + const std::string Key = "processor"; + std::string ln; + while (std::getline(f, ln)) { + if (ln.empty()) continue; + size_t SplitIdx = ln.find(':'); + std::string value; +#if defined(__s390__) + // s390 has another format in /proc/cpuinfo + // it needs to be parsed differently + if (SplitIdx != std::string::npos) value = ln.substr(Key.size()+1,SplitIdx-Key.size()-1); +#else + if (SplitIdx != std::string::npos) value = ln.substr(SplitIdx + 1); +#endif + if (ln.size() >= Key.size() && ln.compare(0, Key.size(), Key) == 0) { + NumCPUs++; + if (!value.empty()) { + int CurID = benchmark::stoi(value); + MaxID = std::max(CurID, MaxID); + } + } + } + if (f.bad()) { + std::cerr << "Failure reading /proc/cpuinfo\n"; + return -1; + } + if (!f.eof()) { + std::cerr << "Failed to read to end of /proc/cpuinfo\n"; + return -1; + } + f.close(); + + if ((MaxID + 1) != NumCPUs) { + fprintf(stderr, + "CPU ID assignments in /proc/cpuinfo seem messed up." + " This is usually caused by a bad BIOS.\n"); + } + return NumCPUs; +#endif + BENCHMARK_UNREACHABLE(); +} + +double GetCPUCyclesPerSecond(CPUInfo::Scaling scaling) { + // Currently, scaling is only used on linux path here, + // suppress diagnostics about it being unused on other paths. + (void)scaling; + +#if defined BENCHMARK_OS_LINUX || defined BENCHMARK_OS_CYGWIN + long freq; + + // If the kernel is exporting the tsc frequency use that. There are issues + // where cpuinfo_max_freq cannot be relied on because the BIOS may be + // exporintg an invalid p-state (on x86) or p-states may be used to put the + // processor in a new mode (turbo mode). Essentially, those frequencies + // cannot always be relied upon. The same reasons apply to /proc/cpuinfo as + // well. + if (ReadFromFile("/sys/devices/system/cpu/cpu0/tsc_freq_khz", &freq) + // If CPU scaling is disabled, use the the *current* frequency. + // Note that we specifically don't want to read cpuinfo_cur_freq, + // because it is only readable by root. + || (scaling == CPUInfo::Scaling::DISABLED && + ReadFromFile("/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq", + &freq)) + // Otherwise, if CPU scaling may be in effect, we want to use + // the *maximum* frequency, not whatever CPU speed some random processor + // happens to be using now. + || ReadFromFile("/sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_max_freq", + &freq)) { + // The value is in kHz (as the file name suggests). For example, on a + // 2GHz warpstation, the file contains the value "2000000". + return freq * 1000.0; + } + + const double error_value = -1; + double bogo_clock = error_value; + + std::ifstream f("/proc/cpuinfo"); + if (!f.is_open()) { + std::cerr << "failed to open /proc/cpuinfo\n"; + return error_value; + } + + auto startsWithKey = [](std::string const& Value, std::string const& Key) { + if (Key.size() > Value.size()) return false; + auto Cmp = [&](char X, char Y) { + return std::tolower(X) == std::tolower(Y); + }; + return std::equal(Key.begin(), Key.end(), Value.begin(), Cmp); + }; + + std::string ln; + while (std::getline(f, ln)) { + if (ln.empty()) continue; + size_t SplitIdx = ln.find(':'); + std::string value; + if (SplitIdx != std::string::npos) value = ln.substr(SplitIdx + 1); + // When parsing the "cpu MHz" and "bogomips" (fallback) entries, we only + // accept positive values. Some environments (virtual machines) report zero, + // which would cause infinite looping in WallTime_Init. + if (startsWithKey(ln, "cpu MHz")) { + if (!value.empty()) { + double cycles_per_second = benchmark::stod(value) * 1000000.0; + if (cycles_per_second > 0) return cycles_per_second; + } + } else if (startsWithKey(ln, "bogomips")) { + if (!value.empty()) { + bogo_clock = benchmark::stod(value) * 1000000.0; + if (bogo_clock < 0.0) bogo_clock = error_value; + } + } + } + if (f.bad()) { + std::cerr << "Failure reading /proc/cpuinfo\n"; + return error_value; + } + if (!f.eof()) { + std::cerr << "Failed to read to end of /proc/cpuinfo\n"; + return error_value; + } + f.close(); + // If we found the bogomips clock, but nothing better, we'll use it (but + // we're not happy about it); otherwise, fallback to the rough estimation + // below. + if (bogo_clock >= 0.0) return bogo_clock; + +#elif defined BENCHMARK_HAS_SYSCTL + constexpr auto* FreqStr = +#if defined(BENCHMARK_OS_FREEBSD) || defined(BENCHMARK_OS_NETBSD) + "machdep.tsc_freq"; +#elif defined BENCHMARK_OS_OPENBSD + "hw.cpuspeed"; +#elif defined BENCHMARK_OS_DRAGONFLY + "hw.tsc_frequency"; +#else + "hw.cpufrequency"; +#endif + unsigned long long hz = 0; +#if defined BENCHMARK_OS_OPENBSD + if (GetSysctl(FreqStr, &hz)) return hz * 1000000; +#else + if (GetSysctl(FreqStr, &hz)) return hz; +#endif + fprintf(stderr, "Unable to determine clock rate from sysctl: %s: %s\n", + FreqStr, strerror(errno)); + +#elif defined BENCHMARK_OS_WINDOWS + // In NT, read MHz from the registry. If we fail to do so or we're in win9x + // then make a crude estimate. + DWORD data, data_size = sizeof(data); + if (IsWindowsXPOrGreater() && + SUCCEEDED( + SHGetValueA(HKEY_LOCAL_MACHINE, + "HARDWARE\\DESCRIPTION\\System\\CentralProcessor\\0", + "~MHz", nullptr, &data, &data_size))) + return static_cast((int64_t)data * + (int64_t)(1000 * 1000)); // was mhz +#elif defined (BENCHMARK_OS_SOLARIS) + kstat_ctl_t *kc = kstat_open(); + if (!kc) { + std::cerr << "failed to open /dev/kstat\n"; + return -1; + } + kstat_t *ksp = kstat_lookup(kc, (char*)"cpu_info", -1, (char*)"cpu_info0"); + if (!ksp) { + std::cerr << "failed to lookup in /dev/kstat\n"; + return -1; + } + if (kstat_read(kc, ksp, NULL) < 0) { + std::cerr << "failed to read from /dev/kstat\n"; + return -1; + } + kstat_named_t *knp = + (kstat_named_t*)kstat_data_lookup(ksp, (char*)"current_clock_Hz"); + if (!knp) { + std::cerr << "failed to lookup data in /dev/kstat\n"; + return -1; + } + if (knp->data_type != KSTAT_DATA_UINT64) { + std::cerr << "current_clock_Hz is of unexpected data type: " + << knp->data_type << "\n"; + return -1; + } + double clock_hz = knp->value.ui64; + kstat_close(kc); + return clock_hz; +#elif defined (BENCHMARK_OS_QNX) + return static_cast((int64_t)(SYSPAGE_ENTRY(cpuinfo)->speed) * + (int64_t)(1000 * 1000)); +#endif + // If we've fallen through, attempt to roughly estimate the CPU clock rate. + const int estimate_time_ms = 1000; + const auto start_ticks = cycleclock::Now(); + SleepForMilliseconds(estimate_time_ms); + return static_cast(cycleclock::Now() - start_ticks); +} + +std::vector GetLoadAvg() { +#if (defined BENCHMARK_OS_FREEBSD || defined(BENCHMARK_OS_LINUX) || \ + defined BENCHMARK_OS_MACOSX || defined BENCHMARK_OS_NETBSD || \ + defined BENCHMARK_OS_OPENBSD || defined BENCHMARK_OS_DRAGONFLY) && \ + !defined(__ANDROID__) + constexpr int kMaxSamples = 3; + std::vector res(kMaxSamples, 0.0); + const int nelem = getloadavg(res.data(), kMaxSamples); + if (nelem < 1) { + res.clear(); + } else { + res.resize(nelem); + } + return res; +#else + return {}; +#endif +} + +} // end namespace + +const CPUInfo& CPUInfo::Get() { + static const CPUInfo* info = new CPUInfo(); + return *info; +} + +CPUInfo::CPUInfo() + : num_cpus(GetNumCPUs()), + scaling(CpuScaling(num_cpus)), + cycles_per_second(GetCPUCyclesPerSecond(scaling)), + caches(GetCacheSizes()), + load_avg(GetLoadAvg()) {} + +const SystemInfo& SystemInfo::Get() { + static const SystemInfo* info = new SystemInfo(); + return *info; +} + +SystemInfo::SystemInfo() : name(GetSystemName()) {} +} // end namespace benchmark -- cgit v1.1