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Replace vector iterator args in benchmarks with ptr args
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@ -30,8 +30,13 @@ namespace Catch {
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samples.push_back( current->count() );
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}
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auto analysis = Catch::Benchmark::Detail::analyse_samples(cfg.benchmarkConfidenceInterval(), cfg.benchmarkResamples(), samples.begin(), samples.end());
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auto outliers = Catch::Benchmark::Detail::classify_outliers(samples.begin(), samples.end());
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auto analysis = Catch::Benchmark::Detail::analyse_samples(
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cfg.benchmarkConfidenceInterval(),
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cfg.benchmarkResamples(),
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samples.data(),
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samples.data() + samples.size() );
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auto outliers = Catch::Benchmark::Detail::classify_outliers(
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samples.data(), samples.data() + samples.size() );
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auto wrap_estimate = [](Estimate<double> e) {
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return Estimate<Duration> {
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@ -63,8 +63,8 @@ namespace Catch {
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auto r = run_for_at_least<Clock>(std::chrono::duration_cast<ClockDuration<Clock>>(clock_resolution_estimation_time), iterations, &resolution<Clock>)
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.result;
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return {
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FloatDuration<Clock>(mean(r.begin(), r.end())),
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classify_outliers(r.begin(), r.end()),
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FloatDuration<Clock>(mean(r.data(), r.data() + r.size())),
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classify_outliers(r.data(), r.data() + r.size()),
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};
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}
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template <typename Clock>
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@ -92,8 +92,8 @@ namespace Catch {
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.count() ) );
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}
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return {
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FloatDuration<Clock>(mean(times.begin(), times.end())),
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classify_outliers(times.begin(), times.end()),
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FloatDuration<Clock>(mean(times.data(), times.data() + times.size())),
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classify_outliers(times.data(), times.data() + times.size()),
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};
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}
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@ -30,8 +30,8 @@ namespace Catch {
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static sample
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resample( URng& rng,
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unsigned int resamples,
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std::vector<double>::const_iterator first,
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std::vector<double>::const_iterator last,
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double const* first,
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double const* last,
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Estimator& estimator ) {
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auto n = static_cast<size_t>( last - first );
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std::uniform_int_distribution<decltype( n )> dist( 0,
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@ -51,7 +51,7 @@ namespace Catch {
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dist( rng ) )] );
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}
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const auto estimate =
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estimator( resampled.begin(), resampled.end() );
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estimator( resampled.data(), resampled.data() + resampled.size() );
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out.push_back( estimate );
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}
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std::sort( out.begin(), out.end() );
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@ -168,8 +168,7 @@ namespace Catch {
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}
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static double
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standard_deviation( std::vector<double>::const_iterator first,
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std::vector<double>::const_iterator last ) {
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standard_deviation( double const* first, double const* last ) {
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auto m = Catch::Benchmark::Detail::mean( first, last );
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double variance =
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std::accumulate( first,
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@ -201,7 +200,10 @@ namespace Catch {
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# pragma GCC diagnostic pop
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#endif
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double weighted_average_quantile(int k, int q, std::vector<double>::iterator first, std::vector<double>::iterator last) {
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double weighted_average_quantile( int k,
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int q,
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double* first,
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double* last ) {
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auto count = last - first;
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double idx = (count - 1) * k / static_cast<double>(q);
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int j = static_cast<int>(idx);
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@ -217,12 +219,11 @@ namespace Catch {
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}
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OutlierClassification
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classify_outliers( std::vector<double>::const_iterator first,
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std::vector<double>::const_iterator last ) {
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classify_outliers( double const* first, double const* last ) {
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std::vector<double> copy( first, last );
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auto q1 = weighted_average_quantile( 1, 4, copy.begin(), copy.end() );
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auto q3 = weighted_average_quantile( 3, 4, copy.begin(), copy.end() );
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auto q1 = weighted_average_quantile( 1, 4, copy.data(), copy.data() + copy.size() );
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auto q3 = weighted_average_quantile( 3, 4, copy.data(), copy.data() + copy.size() );
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auto iqr = q3 - q1;
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auto los = q1 - ( iqr * 3. );
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auto lom = q1 - ( iqr * 1.5 );
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@ -246,8 +247,7 @@ namespace Catch {
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return o;
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}
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double mean( std::vector<double>::const_iterator first,
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std::vector<double>::const_iterator last ) {
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double mean( double const* first, double const* last ) {
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auto count = last - first;
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double sum = 0.;
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while (first != last) {
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@ -280,8 +280,8 @@ namespace Catch {
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bootstrap_analysis analyse_samples(double confidence_level,
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unsigned int n_resamples,
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std::vector<double>::iterator first,
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std::vector<double>::iterator last) {
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double* first,
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double* last) {
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CATCH_INTERNAL_START_WARNINGS_SUPPRESSION
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CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS
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static std::random_device entropy;
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@ -293,8 +293,7 @@ namespace Catch {
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auto stddev = &standard_deviation;
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#if defined(CATCH_CONFIG_USE_ASYNC)
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auto Estimate = [=](double(*f)(std::vector<double>::const_iterator,
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std::vector<double>::const_iterator)) {
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auto Estimate = [=](double(*f)(double const*, double const*)) {
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auto seed = entropy();
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return std::async(std::launch::async, [=] {
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std::mt19937 rng(seed);
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@ -309,8 +308,7 @@ namespace Catch {
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auto mean_estimate = mean_future.get();
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auto stddev_estimate = stddev_future.get();
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#else
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auto Estimate = [=](double(*f)(std::vector<double>::const_iterator,
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std::vector<double>::const_iterator)) {
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auto Estimate = [=](double(*f)(double const* , double const*)) {
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auto seed = entropy();
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std::mt19937 rng(seed);
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auto resampled = resample(rng, n_resamples, first, last, f);
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@ -26,19 +26,20 @@ namespace Catch {
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// to centralize warning suppression
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bool directCompare( double lhs, double rhs );
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double weighted_average_quantile(int k, int q, std::vector<double>::iterator first, std::vector<double>::iterator last);
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double weighted_average_quantile( int k,
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int q,
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double* first,
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double* last );
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OutlierClassification
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classify_outliers( std::vector<double>::const_iterator first,
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std::vector<double>::const_iterator last );
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classify_outliers( double const* first, double const* last );
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double mean( std::vector<double>::const_iterator first,
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std::vector<double>::const_iterator last );
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double mean( double const* first, double const* last );
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template <typename Estimator>
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sample jackknife(Estimator&& estimator,
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std::vector<double>::iterator first,
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std::vector<double>::iterator last) {
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double* first,
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double* last) {
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auto n = static_cast<size_t>(last - first);
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auto second = first;
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++second;
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@ -63,8 +64,8 @@ namespace Catch {
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template <typename Estimator>
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Estimate<double> bootstrap( double confidence_level,
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std::vector<double>::iterator first,
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std::vector<double>::iterator last,
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double* first,
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double* last,
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sample const& resample,
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Estimator&& estimator ) {
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auto n_samples = last - first;
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@ -74,7 +75,7 @@ namespace Catch {
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if (n_samples == 1) return { point, point, point, confidence_level };
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sample jack = jackknife(estimator, first, last);
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double jack_mean = mean(jack.begin(), jack.end());
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double jack_mean = mean(jack.data(), jack.data() + jack.size());
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double sum_squares = 0, sum_cubes = 0;
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for (double x : jack) {
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auto difference = jack_mean - x;
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@ -116,8 +117,8 @@ namespace Catch {
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bootstrap_analysis analyse_samples(double confidence_level,
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unsigned int n_resamples,
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std::vector<double>::iterator first,
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std::vector<double>::iterator last);
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double* first,
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double* last);
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} // namespace Detail
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} // namespace Benchmark
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} // namespace Catch
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@ -156,8 +156,12 @@ TEST_CASE("uniform samples", "[benchmark]") {
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std::vector<double> samples(100);
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std::fill(samples.begin(), samples.end(), 23);
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using it = std::vector<double>::iterator;
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auto e = Catch::Benchmark::Detail::bootstrap(0.95, samples.begin(), samples.end(), samples, [](it a, it b) {
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auto e = Catch::Benchmark::Detail::bootstrap(
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0.95,
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samples.data(),
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samples.data() + samples.size(),
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samples,
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[]( double const* a, double const* b ) {
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auto sum = std::accumulate(a, b, 0.);
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return sum / (b - a);
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});
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@ -198,7 +202,7 @@ TEST_CASE("normal_quantile", "[benchmark]") {
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TEST_CASE("mean", "[benchmark]") {
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std::vector<double> x{ 10., 20., 14., 16., 30., 24. };
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auto m = Catch::Benchmark::Detail::mean(x.begin(), x.end());
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auto m = Catch::Benchmark::Detail::mean(x.data(), x.data() + x.size());
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REQUIRE(m == 19.);
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}
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@ -206,9 +210,9 @@ TEST_CASE("mean", "[benchmark]") {
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TEST_CASE("weighted_average_quantile", "[benchmark]") {
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std::vector<double> x{ 10., 20., 14., 16., 30., 24. };
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auto q1 = Catch::Benchmark::Detail::weighted_average_quantile(1, 4, x.begin(), x.end());
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auto med = Catch::Benchmark::Detail::weighted_average_quantile(1, 2, x.begin(), x.end());
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auto q3 = Catch::Benchmark::Detail::weighted_average_quantile(3, 4, x.begin(), x.end());
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auto q1 = Catch::Benchmark::Detail::weighted_average_quantile(1, 4, x.data(), x.data() + x.size());
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auto med = Catch::Benchmark::Detail::weighted_average_quantile(1, 2, x.data(), x.data() + x.size());
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auto q3 = Catch::Benchmark::Detail::weighted_average_quantile(3, 4, x.data(), x.data() + x.size());
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REQUIRE(q1 == 14.5);
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REQUIRE(med == 18.);
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@ -227,7 +231,8 @@ TEST_CASE("classify_outliers", "[benchmark]") {
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SECTION("none") {
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std::vector<double> x{ 10., 20., 14., 16., 30., 24. };
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auto o = Catch::Benchmark::Detail::classify_outliers(x.begin(), x.end());
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auto o = Catch::Benchmark::Detail::classify_outliers(
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x.data(), x.data() + x.size() );
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REQUIRE(o.samples_seen == static_cast<int>(x.size()));
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require_outliers(o, 0, 0, 0, 0);
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@ -235,7 +240,8 @@ TEST_CASE("classify_outliers", "[benchmark]") {
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SECTION("low severe") {
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std::vector<double> x{ -12., 20., 14., 16., 30., 24. };
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auto o = Catch::Benchmark::Detail::classify_outliers(x.begin(), x.end());
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auto o = Catch::Benchmark::Detail::classify_outliers(
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x.data(), x.data() + x.size() );
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REQUIRE(o.samples_seen == static_cast<int>(x.size()));
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require_outliers(o, 1, 0, 0, 0);
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@ -243,7 +249,8 @@ TEST_CASE("classify_outliers", "[benchmark]") {
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SECTION("low mild") {
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std::vector<double> x{ 1., 20., 14., 16., 30., 24. };
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auto o = Catch::Benchmark::Detail::classify_outliers(x.begin(), x.end());
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auto o = Catch::Benchmark::Detail::classify_outliers(
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x.data(), x.data() + x.size() );
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REQUIRE(o.samples_seen == static_cast<int>(x.size()));
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require_outliers(o, 0, 1, 0, 0);
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@ -251,7 +258,8 @@ TEST_CASE("classify_outliers", "[benchmark]") {
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SECTION("high mild") {
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std::vector<double> x{ 10., 20., 14., 16., 36., 24. };
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auto o = Catch::Benchmark::Detail::classify_outliers(x.begin(), x.end());
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auto o = Catch::Benchmark::Detail::classify_outliers(
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x.data(), x.data() + x.size() );
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REQUIRE(o.samples_seen == static_cast<int>(x.size()));
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require_outliers(o, 0, 0, 1, 0);
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@ -259,7 +267,8 @@ TEST_CASE("classify_outliers", "[benchmark]") {
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SECTION("high severe") {
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std::vector<double> x{ 10., 20., 14., 16., 49., 24. };
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auto o = Catch::Benchmark::Detail::classify_outliers(x.begin(), x.end());
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auto o = Catch::Benchmark::Detail::classify_outliers(
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x.data(), x.data() + x.size() );
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REQUIRE(o.samples_seen == static_cast<int>(x.size()));
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require_outliers(o, 0, 0, 0, 1);
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@ -267,7 +276,8 @@ TEST_CASE("classify_outliers", "[benchmark]") {
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SECTION("mixed") {
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std::vector<double> x{ -20., 20., 14., 16., 39., 24. };
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auto o = Catch::Benchmark::Detail::classify_outliers(x.begin(), x.end());
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auto o = Catch::Benchmark::Detail::classify_outliers(
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x.data(), x.data() + x.size() );
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REQUIRE(o.samples_seen == static_cast<int>(x.size()));
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require_outliers(o, 1, 0, 1, 0);
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