// Copyright (C) 2019 The Android Open Source Project // // 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 "src/trace_processor/tables/macros.h" namespace perfetto { namespace trace_processor { namespace { #define PERFETTO_TP_ROOT_TEST_TABLE(NAME, PARENT, C) \ NAME(RootTestTable, "root_table") \ PERFETTO_TP_ROOT_TABLE(PARENT, C) \ C(uint32_t, root_sorted, Column::Flag::kSorted) \ C(uint32_t, root_non_null) \ C(uint32_t, root_non_null_2) \ C(base::Optional, root_nullable) PERFETTO_TP_TABLE(PERFETTO_TP_ROOT_TEST_TABLE); #define PERFETTO_TP_CHILD_TABLE(NAME, PARENT, C) \ NAME(ChildTestTable, "child_table") \ PARENT(PERFETTO_TP_ROOT_TEST_TABLE, C) \ C(uint32_t, child_sorted, Column::Flag::kSorted) \ C(uint32_t, child_non_null) \ C(base::Optional, child_nullable) PERFETTO_TP_TABLE(PERFETTO_TP_CHILD_TABLE); RootTestTable::~RootTestTable() = default; ChildTestTable::~ChildTestTable() = default; } // namespace } // namespace trace_processor } // namespace perfetto namespace { bool IsBenchmarkFunctionalOnly() { return getenv("BENCHMARK_FUNCTIONAL_TEST_ONLY") != nullptr; } void TableFilterArgs(benchmark::internal::Benchmark* b) { if (IsBenchmarkFunctionalOnly()) { b->Arg(1024); } else { b->RangeMultiplier(8); b->Range(1024, 2 * 1024 * 1024); } } void TableSortArgs(benchmark::internal::Benchmark* b) { if (IsBenchmarkFunctionalOnly()) { b->Arg(64); } else { b->RangeMultiplier(8); b->Range(1024, 256 * 1024); } } } // namespace using perfetto::trace_processor::ChildTestTable; using perfetto::trace_processor::RootTestTable; using perfetto::trace_processor::RowMap; using perfetto::trace_processor::SqlValue; using perfetto::trace_processor::StringPool; using perfetto::trace_processor::Table; static void BM_TableInsert(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); for (auto _ : state) { benchmark::DoNotOptimize(root.Insert({})); } } BENCHMARK(BM_TableInsert); static void BM_TableIteratorChild(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); for (uint32_t i = 0; i < size; ++i) { child.Insert({}); root.Insert({}); } auto it = child.IterateRows(); for (auto _ : state) { for (uint32_t i = 0; i < child.GetColumnCount(); ++i) { benchmark::DoNotOptimize(it.Get(i)); } it.Next(); if (!it) it = child.IterateRows(); } } BENCHMARK(BM_TableIteratorChild)->Apply(TableFilterArgs); static void BM_TableFilterAndSortRoot(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); uint32_t partitions = 8; std::minstd_rand0 rnd_engine(45); for (uint32_t i = 0; i < size; ++i) { RootTestTable::Row row; row.root_non_null = rnd_engine() % partitions; row.root_non_null_2 = static_cast(rnd_engine()); root.Insert(row); } for (auto _ : state) { Table filtered = root.Filter({root.root_non_null().eq(5)}, RowMap::OptimizeFor::kLookupSpeed); benchmark::DoNotOptimize( filtered.Sort({root.root_non_null_2().ascending()})); } } BENCHMARK(BM_TableFilterAndSortRoot)->Apply(TableFilterArgs); static void BM_TableFilterRootId(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); for (uint32_t i = 0; i < size; ++i) root.Insert({}); for (auto _ : state) { benchmark::DoNotOptimize(root.Filter({root.id().eq(30)})); } } BENCHMARK(BM_TableFilterRootId)->Apply(TableFilterArgs); static void BM_TableFilterRootIdAndOther(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); for (uint32_t i = 0; i < size; ++i) { RootTestTable::Row root_row; root_row.root_non_null = i * 4; root.Insert(root_row); } for (auto _ : state) { benchmark::DoNotOptimize(root.Filter( {root.id().eq(root.row_count() - 1), root.root_non_null().gt(100)})); } } BENCHMARK(BM_TableFilterRootIdAndOther)->Apply(TableFilterArgs); static void BM_TableFilterChildId(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); for (uint32_t i = 0; i < size; ++i) { root.Insert({}); child.Insert({}); } for (auto _ : state) { benchmark::DoNotOptimize(child.Filter({child.id().eq(30)})); } } BENCHMARK(BM_TableFilterChildId)->Apply(TableFilterArgs); static void BM_TableFilterChildIdAndSortedInRoot(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); for (uint32_t i = 0; i < size; ++i) { RootTestTable::Row root_row; root_row.root_sorted = i * 2; root.Insert(root_row); ChildTestTable::Row child_row; child_row.root_sorted = i * 2 + 1; child.Insert(child_row); } for (auto _ : state) { benchmark::DoNotOptimize( child.Filter({child.id().eq(30), child.root_sorted().gt(1024)})); } } BENCHMARK(BM_TableFilterChildIdAndSortedInRoot)->Apply(TableFilterArgs); static void BM_TableFilterRootNonNullEqMatchMany(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); uint32_t partitions = size / 1024; std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { RootTestTable::Row row(static_cast(rnd_engine() % partitions)); root.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(root.Filter({root.root_non_null().eq(0)})); } } BENCHMARK(BM_TableFilterRootNonNullEqMatchMany)->Apply(TableFilterArgs); static void BM_TableFilterRootMultipleNonNull(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); uint32_t partitions = size / 512; std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { RootTestTable::Row row; row.root_non_null = rnd_engine() % partitions; row.root_non_null_2 = rnd_engine() % partitions; root.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(root.Filter( {root.root_non_null().lt(4), root.root_non_null_2().lt(10)})); } } BENCHMARK(BM_TableFilterRootMultipleNonNull)->Apply(TableFilterArgs); static void BM_TableFilterRootNullableEqMatchMany(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); uint32_t partitions = size / 512; std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { uint32_t value = rnd_engine() % partitions; RootTestTable::Row row; row.root_nullable = value % 2 == 0 ? perfetto::base::nullopt : perfetto::base::make_optional(value); root.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(root.Filter({root.root_nullable().eq(1)})); } } BENCHMARK(BM_TableFilterRootNullableEqMatchMany)->Apply(TableFilterArgs); static void BM_TableFilterChildNonNullEqMatchMany(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); uint32_t partitions = size / 1024; std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { ChildTestTable::Row row; row.child_non_null = static_cast(rnd_engine() % partitions); root.Insert({}); child.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(child.Filter({child.child_non_null().eq(0)})); } } BENCHMARK(BM_TableFilterChildNonNullEqMatchMany)->Apply(TableFilterArgs); static void BM_TableFilterChildNullableEqMatchMany(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); uint32_t partitions = size / 512; std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { uint32_t value = rnd_engine() % partitions; ChildTestTable::Row row; row.child_nullable = value % 2 == 0 ? perfetto::base::nullopt : perfetto::base::make_optional(value); root.Insert({}); child.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(child.Filter({child.child_nullable().eq(1)})); } } BENCHMARK(BM_TableFilterChildNullableEqMatchMany)->Apply(TableFilterArgs); static void BM_TableFilterChildNonNullEqMatchManyInParent( benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); uint32_t partitions = size / 1024; std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { ChildTestTable::Row row; row.root_non_null = static_cast(rnd_engine() % partitions); root.Insert({}); child.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(child.Filter({child.root_non_null().eq(0)})); } } BENCHMARK(BM_TableFilterChildNonNullEqMatchManyInParent) ->Apply(TableFilterArgs); static void BM_TableFilterChildNullableEqMatchManyInParent( benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); uint32_t partitions = size / 512; std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { ChildTestTable::Row row; row.root_nullable = static_cast(rnd_engine() % partitions); root.Insert({}); child.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(child.Filter({child.root_nullable().eq(1)})); } } BENCHMARK(BM_TableFilterChildNullableEqMatchManyInParent) ->Apply(TableFilterArgs); static void BM_TableFilterParentSortedEq(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); for (uint32_t i = 0; i < size; ++i) { RootTestTable::Row row; row.root_sorted = i * 2; root.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(root.Filter({root.root_sorted().eq(22)})); } } BENCHMARK(BM_TableFilterParentSortedEq)->Apply(TableFilterArgs); static void BM_TableFilterParentSortedAndOther(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); for (uint32_t i = 0; i < size; ++i) { // Group the rows into rows of 10. This emulates the behaviour of e.g. // args. RootTestTable::Row row; row.root_sorted = (i / 10) * 10; row.root_non_null = i; root.Insert(row); } // We choose to search for the last group as if there is O(n^2), it will // be more easily visible. uint32_t last_group = ((size - 1) / 10) * 10; for (auto _ : state) { benchmark::DoNotOptimize(root.Filter({root.root_sorted().eq(last_group), root.root_non_null().eq(size - 1)})); } } BENCHMARK(BM_TableFilterParentSortedAndOther)->Apply(TableFilterArgs); static void BM_TableFilterChildSortedEq(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); for (uint32_t i = 0; i < size; ++i) { ChildTestTable::Row row; row.child_sorted = i * 2; root.Insert({}); child.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(child.Filter({child.child_sorted().eq(22)})); } } BENCHMARK(BM_TableFilterChildSortedEq)->Apply(TableFilterArgs); static void BM_TableFilterChildSortedEqInParent(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); for (uint32_t i = 0; i < size; ++i) { RootTestTable::Row root_row; root_row.root_sorted = i * 4; root.Insert(root_row); ChildTestTable::Row row; row.root_sorted = i * 4 + 2; child.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(child.Filter({child.root_sorted().eq(22)})); } } BENCHMARK(BM_TableFilterChildSortedEqInParent)->Apply(TableFilterArgs); static void BM_TableSortRootNonNull(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { const uint32_t root_value = static_cast(rnd_engine()); RootTestTable::Row row; row.root_non_null = root_value; root.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(root.Sort({root.root_non_null().ascending()})); } } BENCHMARK(BM_TableSortRootNonNull)->Apply(TableSortArgs); static void BM_TableSortRootNullable(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); uint32_t size = static_cast(state.range(0)); std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { const uint32_t root_value = static_cast(rnd_engine()); RootTestTable::Row row; row.root_nullable = root_value % 2 == 0 ? perfetto::base::nullopt : perfetto::base::make_optional(root_value); root.Insert(row); } for (auto _ : state) { benchmark::DoNotOptimize(root.Sort({root.root_nullable().ascending()})); } } BENCHMARK(BM_TableSortRootNullable)->Apply(TableSortArgs); static void BM_TableSortChildNonNullInParent(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { const uint32_t root_value = static_cast(rnd_engine()); RootTestTable::Row root_row; root_row.root_non_null = root_value; root.Insert(root_row); const uint32_t child_value = static_cast(rnd_engine()); ChildTestTable::Row child_row; child_row.root_non_null = child_value; child.Insert(child_row); } for (auto _ : state) { benchmark::DoNotOptimize(child.Sort({child.root_non_null().ascending()})); } } BENCHMARK(BM_TableSortChildNonNullInParent)->Apply(TableSortArgs); static void BM_TableSortChildNullableInParent(benchmark::State& state) { StringPool pool; RootTestTable root(&pool, nullptr); ChildTestTable child(&pool, &root); uint32_t size = static_cast(state.range(0)); std::minstd_rand0 rnd_engine; for (uint32_t i = 0; i < size; ++i) { const uint32_t root_value = static_cast(rnd_engine()); RootTestTable::Row root_row; root_row.root_nullable = root_value % 2 == 0 ? perfetto::base::nullopt : perfetto::base::make_optional(root_value); root.Insert(root_row); const uint32_t child_value = static_cast(rnd_engine()); ChildTestTable::Row child_row; child_row.root_nullable = child_value % 2 == 0 ? perfetto::base::nullopt : perfetto::base::make_optional(child_value); child.Insert(child_row); } for (auto _ : state) { benchmark::DoNotOptimize(child.Sort({child.root_nullable().ascending()})); } } BENCHMARK(BM_TableSortChildNullableInParent)->Apply(TableSortArgs);