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https://github.com/google/benchmark.git
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mitigate clang build warnings -Wconversion (#1763)
* mitigate clang build warnings -Wconversion * ensure we have warnings set everywhere and fix some
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19
BUILD.bazel
19
BUILD.bazel
@ -1,5 +1,22 @@
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licenses(["notice"])
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COPTS = [
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"-pedantic",
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"-pedantic-errors",
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"-std=c++11",
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"-Wall",
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"-Wconversion",
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"-Wextra",
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"-Wshadow",
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# "-Wshorten-64-to-32",
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"-Wfloat-equal",
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"-fstrict-aliasing",
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## assert() are used a lot in tests upstream, which may be optimised out leading to
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## unused-variable warning.
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"-Wno-unused-variable",
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"-Werror=old-style-cast",
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]
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config_setting(
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name = "qnx",
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constraint_values = ["@platforms//os:qnx"],
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@ -47,7 +64,7 @@ cc_library(
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],
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copts = select({
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":windows": [],
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"//conditions:default": ["-Werror=old-style-cast"],
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"//conditions:default": COPTS,
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}),
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defines = [
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"BENCHMARK_STATIC_DEFINE",
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@ -190,6 +190,7 @@ else()
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add_cxx_compiler_flag(-Wshadow)
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add_cxx_compiler_flag(-Wfloat-equal)
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add_cxx_compiler_flag(-Wold-style-cast)
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add_cxx_compiler_flag(-Wconversion)
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if(BENCHMARK_ENABLE_WERROR)
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add_cxx_compiler_flag(-Werror)
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endif()
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@ -407,7 +407,8 @@ void RunBenchmarks(const std::vector<BenchmarkInstance>& benchmarks,
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benchmarks_with_threads += (benchmark.threads() > 1);
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runners.emplace_back(benchmark, &perfcounters, reports_for_family);
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int num_repeats_of_this_instance = runners.back().GetNumRepeats();
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num_repetitions_total += num_repeats_of_this_instance;
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num_repetitions_total +=
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static_cast<size_t>(num_repeats_of_this_instance);
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if (reports_for_family)
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reports_for_family->num_runs_total += num_repeats_of_this_instance;
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}
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@ -482,8 +482,9 @@ int Benchmark::ArgsCnt() const {
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const char* Benchmark::GetArgName(int arg) const {
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BM_CHECK_GE(arg, 0);
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BM_CHECK_LT(arg, static_cast<int>(arg_names_.size()));
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return arg_names_[arg].c_str();
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size_t uarg = static_cast<size_t>(arg);
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BM_CHECK_LT(uarg, arg_names_.size());
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return arg_names_[uarg].c_str();
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}
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TimeUnit Benchmark::GetTimeUnit() const {
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@ -24,7 +24,7 @@ typename std::vector<T>::iterator AddPowers(std::vector<T>* dst, T lo, T hi,
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static const T kmax = std::numeric_limits<T>::max();
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// Space out the values in multiples of "mult"
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for (T i = static_cast<T>(1); i <= hi; i *= static_cast<T>(mult)) {
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for (T i = static_cast<T>(1); i <= hi; i = static_cast<T>(i * mult)) {
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if (i >= lo) {
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dst->push_back(i);
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}
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@ -52,7 +52,7 @@ void AddNegatedPowers(std::vector<T>* dst, T lo, T hi, int mult) {
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const auto it = AddPowers(dst, hi_complement, lo_complement, mult);
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std::for_each(it, dst->end(), [](T& t) { t *= -1; });
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std::for_each(it, dst->end(), [](T& t) { t = static_cast<T>(t * -1); });
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std::reverse(it, dst->end());
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}
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@ -235,7 +235,7 @@ BenchmarkRunner::BenchmarkRunner(
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has_explicit_iteration_count(b.iterations() != 0 ||
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parsed_benchtime_flag.tag ==
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BenchTimeType::ITERS),
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pool(b.threads() - 1),
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pool(static_cast<size_t>(b.threads() - 1)),
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iters(has_explicit_iteration_count
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? ComputeIters(b_, parsed_benchtime_flag)
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: 1),
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@ -70,7 +70,7 @@ inline BENCHMARK_ALWAYS_INLINE int64_t Now() {
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// frequency scaling). Also note that when the Mac sleeps, this
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// counter pauses; it does not continue counting, nor does it
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// reset to zero.
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return mach_absolute_time();
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return static_cast<int64_t>(mach_absolute_time());
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#elif defined(BENCHMARK_OS_EMSCRIPTEN)
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// this goes above x86-specific code because old versions of Emscripten
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// define __x86_64__, although they have nothing to do with it.
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@ -82,7 +82,7 @@ inline BENCHMARK_ALWAYS_INLINE int64_t Now() {
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#elif defined(__x86_64__) || defined(__amd64__)
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uint64_t low, high;
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__asm__ volatile("rdtsc" : "=a"(low), "=d"(high));
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return (high << 32) | low;
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return static_cast<int64_t>((high << 32) | low);
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#elif defined(__powerpc__) || defined(__ppc__)
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// This returns a time-base, which is not always precisely a cycle-count.
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#if defined(__powerpc64__) || defined(__ppc64__)
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@ -97,7 +97,7 @@ std::vector<BenchmarkReporter::Run> ComputeStats(
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auto error_count = std::count_if(reports.begin(), reports.end(),
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[](Run const& run) { return run.skipped; });
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if (reports.size() - error_count < 2) {
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if (reports.size() - static_cast<size_t>(error_count) < 2) {
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// We don't report aggregated data if there was a single run.
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return results;
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}
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@ -179,7 +179,7 @@ std::vector<BenchmarkReporter::Run> ComputeStats(
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// Similarly, if there are N repetitions with 1 iterations each,
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// an aggregate will be computed over N measurements, not 1.
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// Thus it is best to simply use the count of separate reports.
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data.iterations = reports.size();
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data.iterations = static_cast<IterationCount>(reports.size());
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data.real_accumulated_time = Stat.compute_(real_accumulated_time_stat);
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data.cpu_accumulated_time = Stat.compute_(cpu_accumulated_time_stat);
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@ -56,7 +56,7 @@ void ToExponentAndMantissa(double val, int precision, double one_k,
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scaled /= one_k;
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if (scaled <= big_threshold) {
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mantissa_stream << scaled;
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*exponent = i + 1;
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*exponent = static_cast<int64_t>(i + 1);
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*mantissa = mantissa_stream.str();
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return;
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}
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@ -350,7 +350,7 @@ std::vector<CPUInfo::CacheInfo> GetCacheSizesWindows() {
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CPUInfo::CacheInfo C;
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C.num_sharing = static_cast<int>(b.count());
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C.level = cache.Level;
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C.size = cache.Size;
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C.size = static_cast<int>(cache.Size);
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C.type = "Unknown";
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switch (cache.Type) {
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case CacheUnified:
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@ -485,9 +485,8 @@ int GetNumCPUsImpl() {
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// positives.
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std::memset(&sysinfo, 0, sizeof(SYSTEM_INFO));
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GetSystemInfo(&sysinfo);
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return sysinfo.dwNumberOfProcessors; // number of logical
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// processors in the current
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// group
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// number of logical processors in the current group
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return static_cast<int>(sysinfo.dwNumberOfProcessors);
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#elif defined(BENCHMARK_OS_SOLARIS)
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// Returns -1 in case of a failure.
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long num_cpu = sysconf(_SC_NPROCESSORS_ONLN);
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@ -837,7 +836,7 @@ std::vector<double> GetLoadAvg() {
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!(defined(__ANDROID__) && __ANDROID_API__ < 29)
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static constexpr int kMaxSamples = 3;
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std::vector<double> res(kMaxSamples, 0.0);
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const int nelem = getloadavg(res.data(), kMaxSamples);
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const size_t nelem = static_cast<size_t>(getloadavg(res.data(), kMaxSamples));
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if (nelem < 1) {
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res.clear();
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} else {
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@ -245,9 +245,9 @@ std::string LocalDateTimeString() {
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tz_offset_sign = '-';
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}
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tz_len =
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tz_len = static_cast<size_t>(
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::snprintf(tz_offset, sizeof(tz_offset), "%c%02li:%02li",
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tz_offset_sign, offset_minutes / 100, offset_minutes % 100);
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tz_offset_sign, offset_minutes / 100, offset_minutes % 100));
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BM_CHECK(tz_len == kTzOffsetLen);
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((void)tz_len); // Prevent unused variable warning in optimized build.
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} else {
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@ -21,6 +21,7 @@ TEST_COPTS = [
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## assert() are used a lot in tests upstream, which may be optimised out leading to
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## unused-variable warning.
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"-Wno-unused-variable",
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"-Werror=old-style-cast",
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]
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# Some of the issues with DoNotOptimize only occur when optimization is enabled
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@ -38,7 +38,7 @@ TEST(AddRangeTest, Advanced64) {
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TEST(AddRangeTest, FullRange8) {
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std::vector<int8_t> dst;
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AddRange(&dst, int8_t{1}, std::numeric_limits<int8_t>::max(), int8_t{8});
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AddRange(&dst, int8_t{1}, std::numeric_limits<int8_t>::max(), 8);
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EXPECT_THAT(
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dst, testing::ElementsAre(int8_t{1}, int8_t{8}, int8_t{64}, int8_t{127}));
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}
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@ -71,11 +71,11 @@ void BM_Complexity_O1(benchmark::State &state) {
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for (auto _ : state) {
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// This test requires a non-zero CPU time to avoid divide-by-zero
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benchmark::DoNotOptimize(state.iterations());
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double tmp = state.iterations();
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double tmp = static_cast<double>(state.iterations());
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benchmark::DoNotOptimize(tmp);
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for (benchmark::IterationCount i = 0; i < state.iterations(); ++i) {
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benchmark::DoNotOptimize(state.iterations());
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tmp *= state.iterations();
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tmp *= static_cast<double>(state.iterations());
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benchmark::DoNotOptimize(tmp);
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}
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@ -120,16 +120,16 @@ void BM_Complexity_O_N(benchmark::State &state) {
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for (auto _ : state) {
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// This test requires a non-zero CPU time to avoid divide-by-zero
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benchmark::DoNotOptimize(state.iterations());
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double tmp = state.iterations();
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double tmp = static_cast<double>(state.iterations());
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benchmark::DoNotOptimize(tmp);
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for (benchmark::IterationCount i = 0; i < state.iterations(); ++i) {
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benchmark::DoNotOptimize(state.iterations());
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tmp *= state.iterations();
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tmp *= static_cast<double>(state.iterations());
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benchmark::DoNotOptimize(tmp);
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}
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// 1ns per iteration per entry
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state.SetIterationTime(state.range(0) * 42 * 1e-9);
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state.SetIterationTime(static_cast<double>(state.range(0)) * 42 * 1e-9);
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}
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state.SetComplexityN(state.range(0));
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}
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@ -178,16 +178,16 @@ static void BM_Complexity_O_N_log_N(benchmark::State &state) {
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for (auto _ : state) {
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// This test requires a non-zero CPU time to avoid divide-by-zero
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benchmark::DoNotOptimize(state.iterations());
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double tmp = state.iterations();
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double tmp = static_cast<double>(state.iterations());
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benchmark::DoNotOptimize(tmp);
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for (benchmark::IterationCount i = 0; i < state.iterations(); ++i) {
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benchmark::DoNotOptimize(state.iterations());
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tmp *= state.iterations();
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tmp *= static_cast<double>(state.iterations());
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benchmark::DoNotOptimize(tmp);
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}
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state.SetIterationTime(state.range(0) * kLog2E * std::log(state.range(0)) *
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42 * 1e-9);
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state.SetIterationTime(static_cast<double>(state.range(0)) * kLog2E *
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std::log(state.range(0)) * 42 * 1e-9);
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}
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state.SetComplexityN(state.range(0));
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}
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@ -238,15 +238,15 @@ void BM_ComplexityCaptureArgs(benchmark::State &state, int n) {
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for (auto _ : state) {
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// This test requires a non-zero CPU time to avoid divide-by-zero
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benchmark::DoNotOptimize(state.iterations());
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double tmp = state.iterations();
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double tmp = static_cast<double>(state.iterations());
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benchmark::DoNotOptimize(tmp);
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for (benchmark::IterationCount i = 0; i < state.iterations(); ++i) {
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benchmark::DoNotOptimize(state.iterations());
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tmp *= state.iterations();
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tmp *= static_cast<double>(state.iterations());
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benchmark::DoNotOptimize(tmp);
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}
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state.SetIterationTime(state.range(0) * 42 * 1e-9);
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state.SetIterationTime(static_cast<double>(state.range(0)) * 42 * 1e-9);
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}
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state.SetComplexityN(n);
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}
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