// Copyright 2025 DeepMind Technologies Limited // // 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 #include #include #include "benchmark/benchmark.h" #include #include #include "src/engine/engine_sort.h" namespace mujoco { namespace { // A struct with data to be sorted. struct Sortable { mjtNum value; int id1; int id2; }; // Comparison function for Sortable struct. int CompareSortable(const Sortable* a, const Sortable* b, void* context) { if (a->value < b->value) { return -1; } else if (a->value == b->value) { return 0; } else { return 1; } } // Instantiate the sort function. mjSORT(SortSortable, Sortable, CompareSortable) // Generate data for sorting benchmarks. std::vector GenerateData(int n, double unsorted_fraction) { std::vector data(n); for (int i = 0; i < n; ++i) { data[i] = {static_cast(i), i, -i}; } if (unsorted_fraction > 0.0) { std::mt19937 g(12345); if (unsorted_fraction >= 1.0) { std::shuffle(data.begin(), data.end(), g); } else { int num_to_shuffle = n * unsorted_fraction; for (int i = 0; i < num_to_shuffle; ++i) { int j = std::uniform_int_distribution(i, n - 1)(g); std::swap(data[i], data[j]); } } } return data; } // Run a sorting benchmark with the given size and unsorted fraction. ABSL_ATTRIBUTE_NO_TAIL_CALL static void SortBenchmark( benchmark::State& state, int n, double unsorted_fraction) { auto data = GenerateData(n, unsorted_fraction); std::vector buf(n); std::vector copy = data; for (auto s : state) { state.PauseTiming(); copy = data; state.ResumeTiming(); SortSortable(copy.data(), buf.data(), n, nullptr); } state.counters["items/s"] = benchmark::Counter(state.iterations() * n, benchmark::Counter::kIsRate); } // Define benchmarks. void BM_Sort_1k_AlmostSorted(benchmark::State& state) { SortBenchmark(state, 1000, 0.05); } BENCHMARK(BM_Sort_1k_AlmostSorted); void BM_Sort_1k_Random(benchmark::State& state) { SortBenchmark(state, 1000, 1.0); } BENCHMARK(BM_Sort_1k_Random); void BM_Sort_100k_AlmostSorted(benchmark::State& state) { SortBenchmark(state, 100000, 0.05); } BENCHMARK(BM_Sort_100k_AlmostSorted); void BM_Sort_100k_Random(benchmark::State& state) { SortBenchmark(state, 100000, 1.0); } BENCHMARK(BM_Sort_100k_Random); // Run a sorting benchmark with std::stable_sort ABSL_ATTRIBUTE_NO_TAIL_CALL static void StdSortBenchmark( benchmark::State& state, int n, double unsorted_fraction) { auto data = GenerateData(n, unsorted_fraction); std::vector copy = data; for (auto s : state) { state.PauseTiming(); copy = data; state.ResumeTiming(); std::stable_sort( copy.begin(), copy.end(), [](const Sortable& a, const Sortable& b) { return a.value < b.value; }); } state.counters["items/s"] = benchmark::Counter(state.iterations() * n, benchmark::Counter::kIsRate); } void BM_StdSort_1k_AlmostSorted(benchmark::State& state) { StdSortBenchmark(state, 1000, 0.05); } BENCHMARK(BM_StdSort_1k_AlmostSorted); void BM_StdSort_1k_Random(benchmark::State& state) { StdSortBenchmark(state, 1000, 1.0); } BENCHMARK(BM_StdSort_1k_Random); void BM_StdSort_100k_AlmostSorted(benchmark::State& state) { StdSortBenchmark(state, 100000, 0.05); } BENCHMARK(BM_StdSort_100k_AlmostSorted); void BM_StdSort_100k_Random(benchmark::State& state) { StdSortBenchmark(state, 100000, 1.0); } BENCHMARK(BM_StdSort_100k_Random); } // namespace } // namespace mujoco int main(int argc, char** argv) { benchmark::Initialize(&argc, argv); benchmark::RunSpecifiedBenchmarks(); return 0; }