mirror of
https://github.com/google/benchmark.git
synced 2024-12-01 07:16:07 +00:00
3d85343d65
* Rewrite complexity_test to use (hardcoded) manual time This test is fundamentally flaky, because it tried to read tea leafs, and is inherently misbehaving in CI environments, since there are unmitigated sources of noise. That being said, the computed Big-O also depends on the `--benchmark_min_time=` Fixes https://github.com/google/benchmark/issues/272 * Correctly compute Big-O for manual timings. Fixes #1758. * complexity_test: do more stuff in empty loop * Make all empty loops be a bit longer empty Looks like on windows, some of these tests still fail, i guess clock precision is too small.
200 lines
6.5 KiB
C++
200 lines
6.5 KiB
C++
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#undef NDEBUG
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#include <cassert>
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#include <vector>
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#include "../src/check.h" // NOTE: check.h is for internal use only!
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#include "benchmark/benchmark.h"
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namespace {
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class TestReporter : public benchmark::ConsoleReporter {
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public:
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bool ReportContext(const Context& context) override {
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return ConsoleReporter::ReportContext(context);
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};
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void ReportRuns(const std::vector<Run>& report) override {
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all_runs_.insert(all_runs_.end(), begin(report), end(report));
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ConsoleReporter::ReportRuns(report);
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}
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TestReporter() {}
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~TestReporter() override {}
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mutable std::vector<Run> all_runs_;
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};
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struct TestCase {
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std::string name;
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bool error_occurred;
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std::string error_message;
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typedef benchmark::BenchmarkReporter::Run Run;
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void CheckRun(Run const& run) const {
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BM_CHECK(name == run.benchmark_name())
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<< "expected " << name << " got " << run.benchmark_name();
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BM_CHECK_EQ(error_occurred,
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benchmark::internal::SkippedWithError == run.skipped);
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BM_CHECK(error_message == run.skip_message);
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if (error_occurred) {
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// BM_CHECK(run.iterations == 0);
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} else {
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BM_CHECK(run.iterations != 0);
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}
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}
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};
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std::vector<TestCase> ExpectedResults;
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int AddCases(const std::string& base_name,
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std::initializer_list<TestCase> const& v) {
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for (auto TC : v) {
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TC.name = base_name + TC.name;
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ExpectedResults.push_back(std::move(TC));
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}
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return 0;
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}
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#define CONCAT(x, y) CONCAT2(x, y)
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#define CONCAT2(x, y) x##y
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#define ADD_CASES(...) int CONCAT(dummy, __LINE__) = AddCases(__VA_ARGS__)
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} // end namespace
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void BM_error_no_running(benchmark::State& state) {
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state.SkipWithError("error message");
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}
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BENCHMARK(BM_error_no_running);
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ADD_CASES("BM_error_no_running", {{"", true, "error message"}});
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void BM_error_before_running(benchmark::State& state) {
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state.SkipWithError("error message");
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while (state.KeepRunning()) {
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assert(false);
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}
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}
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BENCHMARK(BM_error_before_running);
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ADD_CASES("BM_error_before_running", {{"", true, "error message"}});
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void BM_error_before_running_batch(benchmark::State& state) {
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state.SkipWithError("error message");
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while (state.KeepRunningBatch(17)) {
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assert(false);
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}
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}
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BENCHMARK(BM_error_before_running_batch);
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ADD_CASES("BM_error_before_running_batch", {{"", true, "error message"}});
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void BM_error_before_running_range_for(benchmark::State& state) {
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state.SkipWithError("error message");
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for (auto _ : state) {
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assert(false);
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}
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}
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BENCHMARK(BM_error_before_running_range_for);
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ADD_CASES("BM_error_before_running_range_for", {{"", true, "error message"}});
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void BM_error_during_running(benchmark::State& state) {
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int first_iter = true;
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while (state.KeepRunning()) {
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if (state.range(0) == 1 && state.thread_index() <= (state.threads() / 2)) {
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assert(first_iter);
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first_iter = false;
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state.SkipWithError("error message");
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} else {
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state.PauseTiming();
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state.ResumeTiming();
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}
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}
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}
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BENCHMARK(BM_error_during_running)->Arg(1)->Arg(2)->ThreadRange(1, 8);
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ADD_CASES("BM_error_during_running", {{"/1/threads:1", true, "error message"},
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{"/1/threads:2", true, "error message"},
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{"/1/threads:4", true, "error message"},
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{"/1/threads:8", true, "error message"},
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{"/2/threads:1", false, ""},
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{"/2/threads:2", false, ""},
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{"/2/threads:4", false, ""},
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{"/2/threads:8", false, ""}});
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void BM_error_during_running_ranged_for(benchmark::State& state) {
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assert(state.max_iterations > 3 && "test requires at least a few iterations");
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bool first_iter = true;
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// NOTE: Users should not write the for loop explicitly.
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for (auto It = state.begin(), End = state.end(); It != End; ++It) {
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if (state.range(0) == 1) {
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assert(first_iter);
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first_iter = false;
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(void)first_iter;
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state.SkipWithError("error message");
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// Test the unfortunate but documented behavior that the ranged-for loop
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// doesn't automatically terminate when SkipWithError is set.
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assert(++It != End);
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break; // Required behavior
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}
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}
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}
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BENCHMARK(BM_error_during_running_ranged_for)->Arg(1)->Arg(2)->Iterations(5);
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ADD_CASES("BM_error_during_running_ranged_for",
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{{"/1/iterations:5", true, "error message"},
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{"/2/iterations:5", false, ""}});
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void BM_error_after_running(benchmark::State& state) {
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for (auto _ : state) {
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auto iterations = double(state.iterations()) * double(state.iterations());
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benchmark::DoNotOptimize(iterations);
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}
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if (state.thread_index() <= (state.threads() / 2))
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state.SkipWithError("error message");
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}
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BENCHMARK(BM_error_after_running)->ThreadRange(1, 8);
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ADD_CASES("BM_error_after_running", {{"/threads:1", true, "error message"},
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{"/threads:2", true, "error message"},
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{"/threads:4", true, "error message"},
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{"/threads:8", true, "error message"}});
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void BM_error_while_paused(benchmark::State& state) {
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bool first_iter = true;
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while (state.KeepRunning()) {
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if (state.range(0) == 1 && state.thread_index() <= (state.threads() / 2)) {
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assert(first_iter);
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first_iter = false;
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state.PauseTiming();
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state.SkipWithError("error message");
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} else {
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state.PauseTiming();
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state.ResumeTiming();
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}
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}
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}
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BENCHMARK(BM_error_while_paused)->Arg(1)->Arg(2)->ThreadRange(1, 8);
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ADD_CASES("BM_error_while_paused", {{"/1/threads:1", true, "error message"},
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{"/1/threads:2", true, "error message"},
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{"/1/threads:4", true, "error message"},
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{"/1/threads:8", true, "error message"},
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{"/2/threads:1", false, ""},
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{"/2/threads:2", false, ""},
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{"/2/threads:4", false, ""},
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{"/2/threads:8", false, ""}});
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int main(int argc, char* argv[]) {
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benchmark::Initialize(&argc, argv);
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TestReporter test_reporter;
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benchmark::RunSpecifiedBenchmarks(&test_reporter);
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typedef benchmark::BenchmarkReporter::Run Run;
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auto EB = ExpectedResults.begin();
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for (Run const& run : test_reporter.all_runs_) {
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assert(EB != ExpectedResults.end());
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EB->CheckRun(run);
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++EB;
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}
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assert(EB == ExpectedResults.end());
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return 0;
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}
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