#include #include #include #include #include #include #include #include #include #include "../src/benchmark_api_internal.h" #include "../src/check.h" // NOTE: check.h is for internal use only! #include "../src/log.h" // NOTE: log.h is for internal use only #include "../src/re.h" // NOTE: re.h is for internal use only #include "output_test.h" // ========================================================================= // // ------------------------------ Internals -------------------------------- // // ========================================================================= // namespace internal { namespace { using TestCaseList = std::vector; // Use a vector because the order elements are added matters during iteration. // std::map/unordered_map don't guarantee that. // For example: // SetSubstitutions({{"%HelloWorld", "Hello"}, {"%Hello", "Hi"}}); // Substitute("%HelloWorld") // Always expands to Hello. using SubMap = std::vector>; TestCaseList& GetTestCaseList(TestCaseID ID) { // Uses function-local statics to ensure initialization occurs // before first use. static TestCaseList lists[TC_NumID]; return lists[ID]; } SubMap& GetSubstitutions() { // Don't use 'dec_re' from header because it may not yet be initialized. // clang-format off static std::string safe_dec_re = "[0-9]*[.]?[0-9]+([eE][-+][0-9]+)?"; static std::string time_re = "([0-9]+[.])?[0-9]+"; static std::string percentage_re = "[0-9]+[.][0-9]{2}"; static SubMap map = { {"%float", "[0-9]*[.]?[0-9]+([eE][-+][0-9]+)?"}, // human-readable float {"%hrfloat", "[0-9]*[.]?[0-9]+([eE][-+][0-9]+)?[kMGTPEZYmunpfazy]?"}, {"%percentage", percentage_re}, {"%int", "[ ]*[0-9]+"}, {" %s ", "[ ]+"}, {"%time", "[ ]*" + time_re + "[ ]+ns"}, {"%console_report", "[ ]*" + time_re + "[ ]+ns [ ]*" + time_re + "[ ]+ns [ ]*[0-9]+"}, {"%console_percentage_report", "[ ]*" + percentage_re + "[ ]+% [ ]*" + percentage_re + "[ ]+% [ ]*[0-9]+"}, {"%console_us_report", "[ ]*" + time_re + "[ ]+us [ ]*" + time_re + "[ ]+us [ ]*[0-9]+"}, {"%console_ms_report", "[ ]*" + time_re + "[ ]+ms [ ]*" + time_re + "[ ]+ms [ ]*[0-9]+"}, {"%console_s_report", "[ ]*" + time_re + "[ ]+s [ ]*" + time_re + "[ ]+s [ ]*[0-9]+"}, {"%console_time_only_report", "[ ]*" + time_re + "[ ]+ns [ ]*" + time_re + "[ ]+ns"}, {"%console_us_report", "[ ]*" + time_re + "[ ]+us [ ]*" + time_re + "[ ]+us [ ]*[0-9]+"}, {"%console_us_time_only_report", "[ ]*" + time_re + "[ ]+us [ ]*" + time_re + "[ ]+us"}, {"%csv_header", "name,iterations,real_time,cpu_time,time_unit,bytes_per_second," "items_per_second,label,error_occurred,error_message"}, {"%csv_report", "[0-9]+," + safe_dec_re + "," + safe_dec_re + ",ns,,,,,"}, {"%csv_us_report", "[0-9]+," + safe_dec_re + "," + safe_dec_re + ",us,,,,,"}, {"%csv_ms_report", "[0-9]+," + safe_dec_re + "," + safe_dec_re + ",ms,,,,,"}, {"%csv_s_report", "[0-9]+," + safe_dec_re + "," + safe_dec_re + ",s,,,,,"}, {"%csv_bytes_report", "[0-9]+," + safe_dec_re + "," + safe_dec_re + ",ns," + safe_dec_re + ",,,,"}, {"%csv_items_report", "[0-9]+," + safe_dec_re + "," + safe_dec_re + ",ns,," + safe_dec_re + ",,,"}, {"%csv_bytes_items_report", "[0-9]+," + safe_dec_re + "," + safe_dec_re + ",ns," + safe_dec_re + "," + safe_dec_re + ",,,"}, {"%csv_label_report_begin", "[0-9]+," + safe_dec_re + "," + safe_dec_re + ",ns,,,"}, {"%csv_label_report_end", ",,"}}; // clang-format on return map; } std::string PerformSubstitutions(std::string source) { SubMap const& subs = GetSubstitutions(); using SizeT = std::string::size_type; for (auto const& KV : subs) { SizeT pos; SizeT next_start = 0; while ((pos = source.find(KV.first, next_start)) != std::string::npos) { next_start = pos + KV.second.size(); source.replace(pos, KV.first.size(), KV.second); } } return source; } void CheckCase(std::stringstream& remaining_output, TestCase const& TC, TestCaseList const& not_checks) { std::string first_line; bool on_first = true; std::string line; while (remaining_output.eof() == false) { BM_CHECK(remaining_output.good()); std::getline(remaining_output, line); if (on_first) { first_line = line; on_first = false; } for (const auto& NC : not_checks) { BM_CHECK(!NC.regex->Match(line)) << "Unexpected match for line \"" << line << "\" for MR_Not regex \"" << NC.regex_str << "\"" << "\n actual regex string \"" << TC.substituted_regex << "\"" << "\n started matching near: " << first_line; } if (TC.regex->Match(line)) return; BM_CHECK(TC.match_rule != MR_Next) << "Expected line \"" << line << "\" to match regex \"" << TC.regex_str << "\"" << "\n actual regex string \"" << TC.substituted_regex << "\"" << "\n started matching near: " << first_line; } BM_CHECK(remaining_output.eof() == false) << "End of output reached before match for regex \"" << TC.regex_str << "\" was found" << "\n actual regex string \"" << TC.substituted_regex << "\"" << "\n started matching near: " << first_line; } void CheckCases(TestCaseList const& checks, std::stringstream& output) { std::vector not_checks; for (size_t i = 0; i < checks.size(); ++i) { const auto& TC = checks[i]; if (TC.match_rule == MR_Not) { not_checks.push_back(TC); continue; } CheckCase(output, TC, not_checks); not_checks.clear(); } } class TestReporter : public benchmark::BenchmarkReporter { public: TestReporter(std::vector reps) : reporters_(reps) {} virtual bool ReportContext(const Context& context) BENCHMARK_OVERRIDE { bool last_ret = false; bool first = true; for (auto rep : reporters_) { bool new_ret = rep->ReportContext(context); BM_CHECK(first || new_ret == last_ret) << "Reports return different values for ReportContext"; first = false; last_ret = new_ret; } (void)first; return last_ret; } void ReportRuns(const std::vector& report) BENCHMARK_OVERRIDE { for (auto rep : reporters_) rep->ReportRuns(report); } void Finalize() BENCHMARK_OVERRIDE { for (auto rep : reporters_) rep->Finalize(); } private: std::vector reporters_; }; } // namespace } // end namespace internal // ========================================================================= // // -------------------------- Results checking ----------------------------- // // ========================================================================= // namespace internal { // Utility class to manage subscribers for checking benchmark results. // It works by parsing the CSV output to read the results. class ResultsChecker { public: struct PatternAndFn : public TestCase { // reusing TestCase for its regexes PatternAndFn(const std::string& rx, ResultsCheckFn fn_) : TestCase(rx), fn(fn_) {} ResultsCheckFn fn; }; std::vector check_patterns; std::vector results; std::vector field_names; void Add(const std::string& entry_pattern, ResultsCheckFn fn); void CheckResults(std::stringstream& output); private: void SetHeader_(const std::string& csv_header); void SetValues_(const std::string& entry_csv_line); std::vector SplitCsv_(const std::string& line); }; // store the static ResultsChecker in a function to prevent initialization // order problems ResultsChecker& GetResultsChecker() { static ResultsChecker rc; return rc; } // add a results checker for a benchmark void ResultsChecker::Add(const std::string& entry_pattern, ResultsCheckFn fn) { check_patterns.emplace_back(entry_pattern, fn); } // check the results of all subscribed benchmarks void ResultsChecker::CheckResults(std::stringstream& output) { // first reset the stream to the start { auto start = std::stringstream::pos_type(0); // clear before calling tellg() output.clear(); // seek to zero only when needed if (output.tellg() > start) output.seekg(start); // and just in case output.clear(); } // now go over every line and publish it to the ResultsChecker std::string line; bool on_first = true; while (output.eof() == false) { BM_CHECK(output.good()); std::getline(output, line); if (on_first) { SetHeader_(line); // this is important on_first = false; continue; } SetValues_(line); } // finally we can call the subscribed check functions for (const auto& p : check_patterns) { BM_VLOG(2) << "--------------------------------\n"; BM_VLOG(2) << "checking for benchmarks matching " << p.regex_str << "...\n"; for (const auto& r : results) { if (!p.regex->Match(r.name)) { BM_VLOG(2) << p.regex_str << " is not matched by " << r.name << "\n"; continue; } else { BM_VLOG(2) << p.regex_str << " is matched by " << r.name << "\n"; } BM_VLOG(1) << "Checking results of " << r.name << ": ... \n"; p.fn(r); BM_VLOG(1) << "Checking results of " << r.name << ": OK.\n"; } } } // prepare for the names in this header void ResultsChecker::SetHeader_(const std::string& csv_header) { field_names = SplitCsv_(csv_header); } // set the values for a benchmark void ResultsChecker::SetValues_(const std::string& entry_csv_line) { if (entry_csv_line.empty()) return; // some lines are empty BM_CHECK(!field_names.empty()); auto vals = SplitCsv_(entry_csv_line); BM_CHECK_EQ(vals.size(), field_names.size()); results.emplace_back(vals[0]); // vals[0] is the benchmark name auto& entry = results.back(); for (size_t i = 1, e = vals.size(); i < e; ++i) { entry.values[field_names[i]] = vals[i]; } } // a quick'n'dirty csv splitter (eliminating quotes) std::vector ResultsChecker::SplitCsv_(const std::string& line) { std::vector out; if (line.empty()) return out; if (!field_names.empty()) out.reserve(field_names.size()); size_t prev = 0, pos = line.find_first_of(','), curr = pos; while (pos != line.npos) { BM_CHECK(curr > 0); if (line[prev] == '"') ++prev; if (line[curr - 1] == '"') --curr; out.push_back(line.substr(prev, curr - prev)); prev = pos + 1; pos = line.find_first_of(',', pos + 1); curr = pos; } curr = line.size(); if (line[prev] == '"') ++prev; if (line[curr - 1] == '"') --curr; out.push_back(line.substr(prev, curr - prev)); return out; } } // end namespace internal size_t AddChecker(const char* bm_name, ResultsCheckFn fn) { auto& rc = internal::GetResultsChecker(); rc.Add(bm_name, fn); return rc.results.size(); } int Results::NumThreads() const { auto pos = name.find("/threads:"); if (pos == name.npos) return 1; auto end = name.find('/', pos + 9); std::stringstream ss; ss << name.substr(pos + 9, end); int num = 1; ss >> num; BM_CHECK(!ss.fail()); return num; } double Results::NumIterations() const { return GetAs("iterations"); } double Results::GetTime(BenchmarkTime which) const { BM_CHECK(which == kCpuTime || which == kRealTime); const char* which_str = which == kCpuTime ? "cpu_time" : "real_time"; double val = GetAs(which_str); auto unit = Get("time_unit"); BM_CHECK(unit); if (*unit == "ns") { return val * 1.e-9; } else if (*unit == "us") { return val * 1.e-6; } else if (*unit == "ms") { return val * 1.e-3; } else if (*unit == "s") { return val; } else { BM_CHECK(1 == 0) << "unknown time unit: " << *unit; return 0; } } // ========================================================================= // // -------------------------- Public API Definitions------------------------ // // ========================================================================= // TestCase::TestCase(std::string re, int rule) : regex_str(std::move(re)), match_rule(rule), substituted_regex(internal::PerformSubstitutions(regex_str)), regex(std::make_shared()) { std::string err_str; regex->Init(substituted_regex, &err_str); BM_CHECK(err_str.empty()) << "Could not construct regex \"" << substituted_regex << "\"" << "\n originally \"" << regex_str << "\"" << "\n got error: " << err_str; } int AddCases(TestCaseID ID, std::initializer_list il) { auto& L = internal::GetTestCaseList(ID); L.insert(L.end(), il); return 0; } int SetSubstitutions( std::initializer_list> il) { auto& subs = internal::GetSubstitutions(); for (auto KV : il) { bool exists = false; KV.second = internal::PerformSubstitutions(KV.second); for (auto& EKV : subs) { if (EKV.first == KV.first) { EKV.second = std::move(KV.second); exists = true; break; } } if (!exists) subs.push_back(std::move(KV)); } return 0; } // Disable deprecated warnings temporarily because we need to reference // CSVReporter but don't want to trigger -Werror=-Wdeprecated-declarations BENCHMARK_DISABLE_DEPRECATED_WARNING void RunOutputTests(int argc, char* argv[]) { using internal::GetTestCaseList; benchmark::Initialize(&argc, argv); auto options = benchmark::internal::GetOutputOptions(/*force_no_color*/ true); benchmark::ConsoleReporter CR(options); benchmark::JSONReporter JR; benchmark::CSVReporter CSVR; struct ReporterTest { const char* name; std::vector& output_cases; std::vector& error_cases; benchmark::BenchmarkReporter& reporter; std::stringstream out_stream; std::stringstream err_stream; ReporterTest(const char* n, std::vector& out_tc, std::vector& err_tc, benchmark::BenchmarkReporter& br) : name(n), output_cases(out_tc), error_cases(err_tc), reporter(br) { reporter.SetOutputStream(&out_stream); reporter.SetErrorStream(&err_stream); } } TestCases[] = { {"ConsoleReporter", GetTestCaseList(TC_ConsoleOut), GetTestCaseList(TC_ConsoleErr), CR}, {"JSONReporter", GetTestCaseList(TC_JSONOut), GetTestCaseList(TC_JSONErr), JR}, {"CSVReporter", GetTestCaseList(TC_CSVOut), GetTestCaseList(TC_CSVErr), CSVR}, }; // Create the test reporter and run the benchmarks. std::cout << "Running benchmarks...\n"; internal::TestReporter test_rep({&CR, &JR, &CSVR}); benchmark::RunSpecifiedBenchmarks(&test_rep); for (auto& rep_test : TestCases) { std::string msg = std::string("\nTesting ") + rep_test.name + " Output\n"; std::string banner(msg.size() - 1, '-'); std::cout << banner << msg << banner << "\n"; std::cerr << rep_test.err_stream.str(); std::cout << rep_test.out_stream.str(); internal::CheckCases(rep_test.error_cases, rep_test.err_stream); internal::CheckCases(rep_test.output_cases, rep_test.out_stream); std::cout << "\n"; } // now that we know the output is as expected, we can dispatch // the checks to subscribees. auto& csv = TestCases[2]; // would use == but gcc spits a warning BM_CHECK(std::strcmp(csv.name, "CSVReporter") == 0); internal::GetResultsChecker().CheckResults(csv.out_stream); } BENCHMARK_RESTORE_DEPRECATED_WARNING int SubstrCnt(const std::string& haystack, const std::string& pat) { if (pat.length() == 0) return 0; int count = 0; for (size_t offset = haystack.find(pat); offset != std::string::npos; offset = haystack.find(pat, offset + pat.length())) ++count; return count; } static char ToHex(int ch) { return ch < 10 ? static_cast('0' + ch) : static_cast('a' + (ch - 10)); } static char RandomHexChar() { static std::mt19937 rd{std::random_device{}()}; static std::uniform_int_distribution mrand{0, 15}; return ToHex(mrand(rd)); } static std::string GetRandomFileName() { std::string model = "test.%%%%%%"; for (auto & ch : model) { if (ch == '%') ch = RandomHexChar(); } return model; } static bool FileExists(std::string const& name) { std::ifstream in(name.c_str()); return in.good(); } static std::string GetTempFileName() { // This function attempts to avoid race conditions where two tests // create the same file at the same time. However, it still introduces races // similar to tmpnam. int retries = 3; while (--retries) { std::string name = GetRandomFileName(); if (!FileExists(name)) return name; } std::cerr << "Failed to create unique temporary file name" << std::endl; std::abort(); } std::string GetFileReporterOutput(int argc, char* argv[]) { std::vector new_argv(argv, argv + argc); assert(static_cast(argc) == new_argv.size()); std::string tmp_file_name = GetTempFileName(); std::cout << "Will be using this as the tmp file: " << tmp_file_name << '\n'; std::string tmp = "--benchmark_out="; tmp += tmp_file_name; new_argv.emplace_back(const_cast(tmp.c_str())); argc = int(new_argv.size()); benchmark::Initialize(&argc, new_argv.data()); benchmark::RunSpecifiedBenchmarks(); // Read the output back from the file, and delete the file. std::ifstream tmp_stream(tmp_file_name); std::string output = std::string((std::istreambuf_iterator(tmp_stream)), std::istreambuf_iterator()); std::remove(tmp_file_name.c_str()); return output; }