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44128d87d2
These options allow you to write the output of a benchmark to the specified file and with the specified format. The goal of this change is to help support tooling.
305 lines
11 KiB
C++
305 lines
11 KiB
C++
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#undef NDEBUG
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#include "benchmark/benchmark.h"
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#include "../src/check.h" // NOTE: check.h is for internal use only!
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#include "../src/re.h" // NOTE: re.h is for internal use only
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#include <cassert>
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#include <cstring>
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#include <iostream>
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#include <sstream>
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#include <vector>
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#include <utility>
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#include <algorithm>
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#include <cmath>
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namespace {
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// ========================================================================= //
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// -------------------------- Testing Case --------------------------------- //
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// ========================================================================= //
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enum MatchRules {
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MR_Default, // Skip non-matching lines until a match is found.
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MR_Next // Match must occur on the next line.
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};
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struct TestCase {
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std::string regex;
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int match_rule;
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TestCase(std::string re, int rule = MR_Default) : regex(re), match_rule(rule) {}
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void Check(std::stringstream& remaining_output) const {
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benchmark::Regex r;
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std::string err_str;
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r.Init(regex, &err_str);
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CHECK(err_str.empty()) << "Could not construct regex \"" << regex << "\""
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<< " got Error: " << err_str;
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std::string near = "<EOF>";
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std::string line;
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bool first = true;
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while (remaining_output.eof() == false) {
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CHECK(remaining_output.good());
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std::getline(remaining_output, line);
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// Keep the first line as context.
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if (first) {
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near = line;
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first = false;
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}
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if (r.Match(line)) return;
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CHECK(match_rule != MR_Next) << "Expected line \"" << line
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<< "\" to match regex \"" << regex << "\""
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<< "\nstarted matching at line: \"" << near << "\"";
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}
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CHECK(remaining_output.eof() == false)
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<< "End of output reached before match for regex \"" << regex
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<< "\" was found"
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<< "\nstarted matching at line: \"" << near << "\"";
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}
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};
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std::vector<TestCase> ConsoleOutputTests;
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std::vector<TestCase> JSONOutputTests;
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std::vector<TestCase> CSVOutputTests;
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// ========================================================================= //
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// -------------------------- Test Helpers --------------------------------- //
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// ========================================================================= //
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class TestReporter : public benchmark::BenchmarkReporter {
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public:
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TestReporter(std::vector<benchmark::BenchmarkReporter*> reps)
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: reporters_(reps) {}
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virtual bool ReportContext(const Context& context) {
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bool last_ret = false;
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bool first = true;
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for (auto rep : reporters_) {
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bool new_ret = rep->ReportContext(context);
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CHECK(first || new_ret == last_ret)
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<< "Reports return different values for ReportContext";
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first = false;
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last_ret = new_ret;
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}
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return last_ret;
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}
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virtual void ReportRuns(const std::vector<Run>& report) {
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for (auto rep : reporters_)
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rep->ReportRuns(report);
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}
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virtual void Finalize() {
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for (auto rep : reporters_)
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rep->Finalize();
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}
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private:
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std::vector<benchmark::BenchmarkReporter*> reporters_;
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};
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#define CONCAT2(x, y) x##y
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#define CONCAT(x, y) CONCAT2(x, y)
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#define ADD_CASES(...) \
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int CONCAT(dummy, __LINE__) = AddCases(__VA_ARGS__)
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int AddCases(std::vector<TestCase>* out, std::initializer_list<TestCase> const& v) {
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for (auto const& TC : v)
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out->push_back(TC);
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return 0;
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}
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template <class First>
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std::string join(First f) { return f; }
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template <class First, class ...Args>
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std::string join(First f, Args&&... args) {
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return std::string(std::move(f)) + "[ ]+" + join(std::forward<Args>(args)...);
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}
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std::string dec_re = "[0-9]*[.]?[0-9]+([eE][-+][0-9]+)?";
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#define ADD_COMPLEXITY_CASES(...) \
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int CONCAT(dummy, __LINE__) = AddComplexityTest(__VA_ARGS__)
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int AddComplexityTest(std::vector<TestCase>* console_out, std::vector<TestCase>* json_out,
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std::vector<TestCase>* csv_out, std::string big_o_test_name,
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std::string rms_test_name, std::string big_o) {
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std::string big_o_str = dec_re + " " + big_o;
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AddCases(console_out, {
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{join("^" + big_o_test_name + "", big_o_str, big_o_str) + "[ ]*$"},
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{join("^" + rms_test_name + "", "[0-9]+ %", "[0-9]+ %") + "[ ]*$"}
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});
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AddCases(json_out, {
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{"\"name\": \"" + big_o_test_name + "\",$"},
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{"\"cpu_coefficient\": [0-9]+,$", MR_Next},
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{"\"real_coefficient\": [0-9]{1,5},$", MR_Next},
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{"\"big_o\": \"" + big_o + "\",$", MR_Next},
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{"\"time_unit\": \"ns\"$", MR_Next},
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{"}", MR_Next},
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{"\"name\": \"" + rms_test_name + "\",$"},
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{"\"rms\": [0-9]+%$", MR_Next},
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{"}", MR_Next}
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});
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AddCases(csv_out, {
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{"^\"" + big_o_test_name + "\",," + dec_re + "," + dec_re + "," + big_o + ",,,,,$"},
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{"^\"" + rms_test_name + "\",," + dec_re + "," + dec_re + ",,,,,,$", MR_Next}
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});
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return 0;
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}
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} // end namespace
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// ========================================================================= //
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// --------------------------- Testing BigO O(1) --------------------------- //
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// ========================================================================= //
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void BM_Complexity_O1(benchmark::State& state) {
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while (state.KeepRunning()) {
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}
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state.SetComplexityN(state.range_x());
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}
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BENCHMARK(BM_Complexity_O1) -> Range(1, 1<<18) -> Complexity(benchmark::o1);
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BENCHMARK(BM_Complexity_O1) -> Range(1, 1<<18) -> Complexity();
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BENCHMARK(BM_Complexity_O1) -> Range(1, 1<<18) -> Complexity([](int){return 1.0; });
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const char* big_o_1_test_name = "BM_Complexity_O1_BigO";
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const char* rms_o_1_test_name = "BM_Complexity_O1_RMS";
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const char* enum_auto_big_o_1 = "\\([0-9]+\\)";
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const char* lambda_big_o_1 = "f\\(N\\)";
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// Add enum tests
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ADD_COMPLEXITY_CASES(&ConsoleOutputTests, &JSONOutputTests, &CSVOutputTests,
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big_o_1_test_name, rms_o_1_test_name, enum_auto_big_o_1);
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// Add auto enum tests
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ADD_COMPLEXITY_CASES(&ConsoleOutputTests, &JSONOutputTests, &CSVOutputTests,
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big_o_1_test_name, rms_o_1_test_name, enum_auto_big_o_1);
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// Add lambda tests
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ADD_COMPLEXITY_CASES(&ConsoleOutputTests, &JSONOutputTests, &CSVOutputTests,
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big_o_1_test_name, rms_o_1_test_name, lambda_big_o_1);
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// ========================================================================= //
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// --------------------------- Testing BigO O(N) --------------------------- //
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// ========================================================================= //
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std::vector<int> ConstructRandomVector(int size) {
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std::vector<int> v;
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v.reserve(size);
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for (int i = 0; i < size; ++i) {
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v.push_back(rand() % size);
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}
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return v;
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}
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void BM_Complexity_O_N(benchmark::State& state) {
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auto v = ConstructRandomVector(state.range_x());
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const int item_not_in_vector = state.range_x()*2; // Test worst case scenario (item not in vector)
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while (state.KeepRunning()) {
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benchmark::DoNotOptimize(std::find(v.begin(), v.end(), item_not_in_vector));
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}
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state.SetComplexityN(state.range_x());
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}
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BENCHMARK(BM_Complexity_O_N) -> RangeMultiplier(2) -> Range(1<<10, 1<<16) -> Complexity(benchmark::oN);
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BENCHMARK(BM_Complexity_O_N) -> RangeMultiplier(2) -> Range(1<<10, 1<<16) -> Complexity([](int n) -> double{return n; });
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BENCHMARK(BM_Complexity_O_N) -> RangeMultiplier(2) -> Range(1<<10, 1<<16) -> Complexity();
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const char* big_o_n_test_name = "BM_Complexity_O_N_BigO";
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const char* rms_o_n_test_name = "BM_Complexity_O_N_RMS";
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const char* enum_auto_big_o_n = "N";
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const char* lambda_big_o_n = "f\\(N\\)";
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// Add enum tests
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ADD_COMPLEXITY_CASES(&ConsoleOutputTests, &JSONOutputTests, &CSVOutputTests,
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big_o_n_test_name, rms_o_n_test_name, enum_auto_big_o_n);
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// Add lambda tests
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ADD_COMPLEXITY_CASES(&ConsoleOutputTests, &JSONOutputTests, &CSVOutputTests,
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big_o_n_test_name, rms_o_n_test_name, lambda_big_o_n);
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// ========================================================================= //
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// ------------------------- Testing BigO O(N*lgN) ------------------------- //
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// ========================================================================= //
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static void BM_Complexity_O_N_log_N(benchmark::State& state) {
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auto v = ConstructRandomVector(state.range_x());
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while (state.KeepRunning()) {
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std::sort(v.begin(), v.end());
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}
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state.SetComplexityN(state.range_x());
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}
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BENCHMARK(BM_Complexity_O_N_log_N) -> RangeMultiplier(2) -> Range(1<<10, 1<<16) -> Complexity(benchmark::oNLogN);
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BENCHMARK(BM_Complexity_O_N_log_N) -> RangeMultiplier(2) -> Range(1<<10, 1<<16) -> Complexity([](int n) {return n * std::log2(n); });
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BENCHMARK(BM_Complexity_O_N_log_N) -> RangeMultiplier(2) -> Range(1<<10, 1<<16) -> Complexity();
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const char* big_o_n_lg_n_test_name = "BM_Complexity_O_N_log_N_BigO";
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const char* rms_o_n_lg_n_test_name = "BM_Complexity_O_N_log_N_RMS";
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const char* enum_auto_big_o_n_lg_n = "NlgN";
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const char* lambda_big_o_n_lg_n = "f\\(N\\)";
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// Add enum tests
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ADD_COMPLEXITY_CASES(&ConsoleOutputTests, &JSONOutputTests, &CSVOutputTests,
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big_o_n_lg_n_test_name, rms_o_n_lg_n_test_name, enum_auto_big_o_n_lg_n);
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// Add lambda tests
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ADD_COMPLEXITY_CASES(&ConsoleOutputTests, &JSONOutputTests, &CSVOutputTests,
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big_o_n_lg_n_test_name, rms_o_n_lg_n_test_name, lambda_big_o_n_lg_n);
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// ========================================================================= //
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// --------------------------- TEST CASES END ------------------------------ //
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// ========================================================================= //
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int main(int argc, char* argv[]) {
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benchmark::Initialize(&argc, argv);
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benchmark::ConsoleReporter CR(benchmark::ConsoleReporter::OO_None);
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benchmark::JSONReporter JR;
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benchmark::CSVReporter CSVR;
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struct ReporterTest {
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const char* name;
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std::vector<TestCase>& output_cases;
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benchmark::BenchmarkReporter& reporter;
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std::stringstream out_stream;
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std::stringstream err_stream;
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ReporterTest(const char* n,
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std::vector<TestCase>& out_tc,
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benchmark::BenchmarkReporter& br)
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: name(n), output_cases(out_tc), reporter(br) {
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reporter.SetOutputStream(&out_stream);
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reporter.SetErrorStream(&err_stream);
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}
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} TestCases[] = {
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{"ConsoleReporter", ConsoleOutputTests, CR},
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{"JSONReporter", JSONOutputTests, JR},
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{"CSVReporter", CSVOutputTests, CSVR}
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};
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// Create the test reporter and run the benchmarks.
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std::cout << "Running benchmarks...\n";
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TestReporter test_rep({&CR, &JR, &CSVR});
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benchmark::RunSpecifiedBenchmarks(&test_rep);
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for (auto& rep_test : TestCases) {
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std::string msg = std::string("\nTesting ") + rep_test.name + " Output\n";
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std::string banner(msg.size() - 1, '-');
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std::cout << banner << msg << banner << "\n";
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std::cerr << rep_test.err_stream.str();
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std::cout << rep_test.out_stream.str();
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for (const auto& TC : rep_test.output_cases)
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TC.Check(rep_test.out_stream);
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std::cout << "\n";
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}
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return 0;
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}
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