#include #include #include #include #include "benchmark/benchmark.h" class ArgsProductFixture : public ::benchmark::Fixture { public: ArgsProductFixture() : expectedValues({{0, 100, 2000, 30000}, {1, 15, 3, 8}, {1, 15, 3, 9}, {1, 15, 7, 8}, {1, 15, 7, 9}, {1, 15, 10, 8}, {1, 15, 10, 9}, {2, 15, 3, 8}, {2, 15, 3, 9}, {2, 15, 7, 8}, {2, 15, 7, 9}, {2, 15, 10, 8}, {2, 15, 10, 9}, {4, 5, 6, 11}}) {} void SetUp(const ::benchmark::State& state) BENCHMARK_OVERRIDE { std::vector ranges = {state.range(0), state.range(1), state.range(2), state.range(3)}; assert(expectedValues.find(ranges) != expectedValues.end()); actualValues.insert(ranges); } // NOTE: This is not TearDown as we want to check after _all_ runs are // complete. virtual ~ArgsProductFixture() { if (actualValues != expectedValues) { std::cout << "EXPECTED\n"; for (const auto& v : expectedValues) { std::cout << "{"; for (int64_t iv : v) { std::cout << iv << ", "; } std::cout << "}\n"; } std::cout << "ACTUAL\n"; for (const auto& v : actualValues) { std::cout << "{"; for (int64_t iv : v) { std::cout << iv << ", "; } std::cout << "}\n"; } } } std::set> expectedValues; std::set> actualValues; }; BENCHMARK_DEFINE_F(ArgsProductFixture, Empty)(benchmark::State& state) { for (auto _ : state) { int64_t product = state.range(0) * state.range(1) * state.range(2) * state.range(3); for (int64_t x = 0; x < product; x++) { benchmark::DoNotOptimize(x); } } } BENCHMARK_REGISTER_F(ArgsProductFixture, Empty) ->Args({0, 100, 2000, 30000}) ->ArgsProduct({{1, 2}, {15}, {3, 7, 10}, {8, 9}}) ->Args({4, 5, 6, 11}); BENCHMARK_MAIN();