reference, declarationdefinition
definition → references, declarations, derived classes, virtual overrides
reference to multiple definitions → definitions
unreferenced
    1
    2
    3
    4
    5
    6
    7
    8
    9
   10
   11
   12
   13
   14
   15
   16
   17
   18
   19
   20
   21
   22
   23
   24
   25
   26
   27
   28
   29
   30
   31
   32
   33
   34
   35
   36
   37
   38
   39
   40
   41
   42
   43
   44
   45
   46
   47
   48
   49
   50
   51
   52
   53
   54
   55
   56
   57
   58
   59
   60
   61
   62
   63
   64
   65
   66
   67
   68
   69
   70
   71
   72
   73
   74
   75
   76
   77
   78
   79
   80
   81
   82
   83
   84
   85
   86
   87
   88
   89
   90
   91
   92
   93
   94
   95
   96
   97
   98
   99
  100
  101
  102
  103
  104
  105
  106
  107
  108
  109
  110
  111
  112
  113
  114
  115
  116
  117
  118
  119
  120
  121
  122
  123
  124
  125
  126
  127
  128
  129
  130
  131
  132
  133
  134
  135
  136
  137
  138
  139
  140
  141
  142
  143
  144
  145
  146
  147
  148
  149
  150
  151
  152
  153
  154
  155
  156
  157
  158
  159
  160
  161
  162
  163
  164
  165
  166
  167
  168
  169
  170
  171
  172
  173
  174
  175
  176
  177
  178
// Copyright 2016 Ismael Jimenez Martinez. All rights reserved.
// Copyright 2017 Roman Lebedev. All rights reserved.
//
// 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 "benchmark/benchmark.h"

#include <algorithm>
#include <cmath>
#include <string>
#include <vector>
#include <numeric>
#include "check.h"
#include "statistics.h"

namespace benchmark {

auto StatisticsSum = [](const std::vector<double>& v) {
  return std::accumulate(v.begin(), v.end(), 0.0);
};

double StatisticsMean(const std::vector<double>& v) {
  if (v.empty()) return 0.0;
  return StatisticsSum(v) * (1.0 / v.size());
}

double StatisticsMedian(const std::vector<double>& v) {
  if (v.size() < 3) return StatisticsMean(v);
  std::vector<double> copy(v);

  auto center = copy.begin() + v.size() / 2;
  std::nth_element(copy.begin(), center, copy.end());

  // did we have an odd number of samples?
  // if yes, then center is the median
  // it no, then we are looking for the average between center and the value before
  if(v.size() % 2 == 1)
    return *center;
  auto center2 = copy.begin() + v.size() / 2 - 1;
  std::nth_element(copy.begin(), center2, copy.end());
  return (*center + *center2) / 2.0;
}

// Return the sum of the squares of this sample set
auto SumSquares = [](const std::vector<double>& v) {
  return std::inner_product(v.begin(), v.end(), v.begin(), 0.0);
};

auto Sqr = [](const double dat) { return dat * dat; };
auto Sqrt = [](const double dat) {
  // Avoid NaN due to imprecision in the calculations
  if (dat < 0.0) return 0.0;
  return std::sqrt(dat);
};

double StatisticsStdDev(const std::vector<double>& v) {
  const auto mean = StatisticsMean(v);
  if (v.empty()) return mean;

  // Sample standard deviation is undefined for n = 1
  if (v.size() == 1)
    return 0.0;

  const double avg_squares = SumSquares(v) * (1.0 / v.size());
  return Sqrt(v.size() / (v.size() - 1.0) * (avg_squares - Sqr(mean)));
}

std::vector<BenchmarkReporter::Run> ComputeStats(
    const std::vector<BenchmarkReporter::Run>& reports) {
  typedef BenchmarkReporter::Run Run;
  std::vector<Run> results;

  auto error_count =
      std::count_if(reports.begin(), reports.end(),
                    [](Run const& run) { return run.error_occurred; });

  if (reports.size() - error_count < 2) {
    // We don't report aggregated data if there was a single run.
    return results;
  }

  // Accumulators.
  std::vector<double> real_accumulated_time_stat;
  std::vector<double> cpu_accumulated_time_stat;
  std::vector<double> bytes_per_second_stat;
  std::vector<double> items_per_second_stat;

  real_accumulated_time_stat.reserve(reports.size());
  cpu_accumulated_time_stat.reserve(reports.size());
  bytes_per_second_stat.reserve(reports.size());
  items_per_second_stat.reserve(reports.size());

  // All repetitions should be run with the same number of iterations so we
  // can take this information from the first benchmark.
  int64_t const run_iterations = reports.front().iterations;
  // create stats for user counters
  struct CounterStat {
    Counter c;
    std::vector<double> s;
  };
  std::map< std::string, CounterStat > counter_stats;
  for(Run const& r : reports) {
    for(auto const& cnt : r.counters) {
      auto it = counter_stats.find(cnt.first);
      if(it == counter_stats.end()) {
        counter_stats.insert({cnt.first, {cnt.second, std::vector<double>{}}});
        it = counter_stats.find(cnt.first);
        it->second.s.reserve(reports.size());
      } else {
        CHECK_EQ(counter_stats[cnt.first].c.flags, cnt.second.flags);
      }
    }
  }

  // Populate the accumulators.
  for (Run const& run : reports) {
    CHECK_EQ(reports[0].benchmark_name, run.benchmark_name);
    CHECK_EQ(run_iterations, run.iterations);
    if (run.error_occurred) continue;
    real_accumulated_time_stat.emplace_back(run.real_accumulated_time);
    cpu_accumulated_time_stat.emplace_back(run.cpu_accumulated_time);
    items_per_second_stat.emplace_back(run.items_per_second);
    bytes_per_second_stat.emplace_back(run.bytes_per_second);
    // user counters
    for(auto const& cnt : run.counters) {
      auto it = counter_stats.find(cnt.first);
      CHECK_NE(it, counter_stats.end());
      it->second.s.emplace_back(cnt.second);
    }
  }

  // Only add label if it is same for all runs
  std::string report_label = reports[0].report_label;
  for (std::size_t i = 1; i < reports.size(); i++) {
    if (reports[i].report_label != report_label) {
      report_label = "";
      break;
    }
  }

  for(const auto& Stat : *reports[0].statistics) {
    // Get the data from the accumulator to BenchmarkReporter::Run's.
    Run data;
    data.benchmark_name = reports[0].benchmark_name + "_" + Stat.name_;
    data.report_label = report_label;
    data.iterations = run_iterations;

    data.real_accumulated_time = Stat.compute_(real_accumulated_time_stat);
    data.cpu_accumulated_time = Stat.compute_(cpu_accumulated_time_stat);
    data.bytes_per_second = Stat.compute_(bytes_per_second_stat);
    data.items_per_second = Stat.compute_(items_per_second_stat);

    data.time_unit = reports[0].time_unit;

    // user counters
    for(auto const& kv : counter_stats) {
      const auto uc_stat = Stat.compute_(kv.second.s);
      auto c = Counter(uc_stat, counter_stats[kv.first].c.flags);
      data.counters[kv.first] = c;
    }

    results.push_back(data);
  }

  return results;
}

}  // end namespace benchmark