grpc_3rd/benchmark/test/multiple_ranges_test.cc

#include "benchmark/benchmark.h"

#include <cassert>
#include <iostream>
#include <set>
#include <vector>

class MultipleRangesFixture : public ::benchmark::Fixture {
 public:
  MultipleRangesFixture()
      : expectedValues({{1, 3, 5},
                        {1, 3, 8},
                        {1, 3, 15},
                        {2, 3, 5},
                        {2, 3, 8},
                        {2, 3, 15},
                        {1, 4, 5},
                        {1, 4, 8},
                        {1, 4, 15},
                        {2, 4, 5},
                        {2, 4, 8},
                        {2, 4, 15},
                        {1, 7, 5},
                        {1, 7, 8},
                        {1, 7, 15},
                        {2, 7, 5},
                        {2, 7, 8},
                        {2, 7, 15},
                        {7, 6, 3}}) {}

  void SetUp(const ::benchmark::State& state) BENCHMARK_OVERRIDE {
    std::vector<int64_t> ranges = {state.range(0), state.range(1),
                                   state.range(2)};

    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 ~MultipleRangesFixture() {
    if (actualValues != expectedValues) {
      std::cout << "EXPECTED\n";
      for (auto v : expectedValues) {
        std::cout << "{";
        for (int64_t iv : v) {
          std::cout << iv << ", ";
        }
        std::cout << "}\n";
      }
      std::cout << "ACTUAL\n";
      for (auto v : actualValues) {
        std::cout << "{";
        for (int64_t iv : v) {
          std::cout << iv << ", ";
        }
        std::cout << "}\n";
      }
    }
  }

  std::set<std::vector<int64_t>> expectedValues;
  std::set<std::vector<int64_t>> actualValues;
};

BENCHMARK_DEFINE_F(MultipleRangesFixture, Empty)(benchmark::State& state) {
  for (auto _ : state) {
    int64_t product = state.range(0) * state.range(1) * state.range(2);
    for (int64_t x = 0; x < product; x++) {
      benchmark::DoNotOptimize(x);
    }
  }
}

BENCHMARK_REGISTER_F(MultipleRangesFixture, Empty)
    ->RangeMultiplier(2)
    ->Ranges({{1, 2}, {3, 7}, {5, 15}})
    ->Args({7, 6, 3});

void BM_CheckDefaultArgument(benchmark::State& state) {
  // Test that the 'range()' without an argument is the same as 'range(0)'.
  assert(state.range() == state.range(0));
  assert(state.range() != state.range(1));
  for (auto _ : state) {
  }
}
BENCHMARK(BM_CheckDefaultArgument)->Ranges({{1, 5}, {6, 10}});

static void BM_MultipleRanges(benchmark::State& st) {
  for (auto _ : st) {
  }
}
BENCHMARK(BM_MultipleRanges)->Ranges({{5, 5}, {6, 6}});

BENCHMARK_MAIN();
grpc 1.37.0 依赖 2 years ago			`#include "benchmark/benchmark.h"`

			`#include <cassert>`
			`#include <iostream>`
			`#include <set>`
			`#include <vector>`

			`class MultipleRangesFixture : public ::benchmark::Fixture {`
			`public:`
			`MultipleRangesFixture()`
			`: expectedValues({{1, 3, 5},`
			`{1, 3, 8},`
			`{1, 3, 15},`
			`{2, 3, 5},`
			`{2, 3, 8},`
			`{2, 3, 15},`
			`{1, 4, 5},`
			`{1, 4, 8},`
			`{1, 4, 15},`
			`{2, 4, 5},`
			`{2, 4, 8},`
			`{2, 4, 15},`
			`{1, 7, 5},`
			`{1, 7, 8},`
			`{1, 7, 15},`
			`{2, 7, 5},`
			`{2, 7, 8},`
			`{2, 7, 15},`
			`{7, 6, 3}}) {}`

grpc 1.48.0 依赖 2 years ago			`void SetUp(const ::benchmark::State& state) BENCHMARK_OVERRIDE {`
grpc 1.37.0 依赖 2 years ago			`std::vector<int64_t> ranges = {state.range(0), state.range(1),`
			`state.range(2)};`

			`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 ~MultipleRangesFixture() {`
			`if (actualValues != expectedValues) {`
			`std::cout << "EXPECTED\n";`
			`for (auto v : expectedValues) {`
			`std::cout << "{";`
			`for (int64_t iv : v) {`
			`std::cout << iv << ", ";`
			`}`
			`std::cout << "}\n";`
			`}`
			`std::cout << "ACTUAL\n";`
			`for (auto v : actualValues) {`
			`std::cout << "{";`
			`for (int64_t iv : v) {`
			`std::cout << iv << ", ";`
			`}`
			`std::cout << "}\n";`
			`}`
			`}`
			`}`

			`std::set<std::vector<int64_t>> expectedValues;`
			`std::set<std::vector<int64_t>> actualValues;`
			`};`

			`BENCHMARK_DEFINE_F(MultipleRangesFixture, Empty)(benchmark::State& state) {`
			`for (auto _ : state) {`
			`int64_t product = state.range(0) * state.range(1) * state.range(2);`
			`for (int64_t x = 0; x < product; x++) {`
			`benchmark::DoNotOptimize(x);`
			`}`
			`}`
			`}`

			`BENCHMARK_REGISTER_F(MultipleRangesFixture, Empty)`
			`->RangeMultiplier(2)`
			`->Ranges({{1, 2}, {3, 7}, {5, 15}})`
			`->Args({7, 6, 3});`

			`void BM_CheckDefaultArgument(benchmark::State& state) {`
			`// Test that the 'range()' without an argument is the same as 'range(0)'.`
			`assert(state.range() == state.range(0));`
			`assert(state.range() != state.range(1));`
			`for (auto _ : state) {`
			`}`
			`}`
			`BENCHMARK(BM_CheckDefaultArgument)->Ranges({{1, 5}, {6, 10}});`

			`static void BM_MultipleRanges(benchmark::State& st) {`
			`for (auto _ : st) {`
			`}`
			`}`
			`BENCHMARK(BM_MultipleRanges)->Ranges({{5, 5}, {6, 6}});`

			`BENCHMARK_MAIN();`