#!/usr/bin/env python3 import argparse import functools import pathlib import re import statistics import sys import tempfile import numpy import pandas import plotly.express import tabulate def parse_lnt(lines, aggregate=statistics.median): """ Parse lines in LNT format and return a list of dictionnaries of the form: [ { 'benchmark': , : float, : float, ... }, { 'benchmark': , : float, : float, ... }, ... ] If a metric has multiple values associated to it, they are aggregated into a single value using the provided aggregation function. """ results = {} for line in lines: line = line.strip() if not line: continue (identifier, value) = line.split(' ') (benchmark, metric) = identifier.split('.') if benchmark not in results: results[benchmark] = {'benchmark': benchmark} entry = results[benchmark] if metric not in entry: entry[metric] = [] entry[metric].append(float(value)) for (bm, entry) in results.items(): for metric in entry: if isinstance(entry[metric], list): entry[metric] = aggregate(entry[metric]) return list(results.values()) def plain_text_comparison(data, metric, baseline_name=None, candidate_name=None): """ Create a tabulated comparison of the baseline and the candidate for the given metric. """ data = data.replace(numpy.nan, None) # avoid NaNs in tabulate output headers = ['Benchmark', baseline_name, candidate_name, 'Difference', '% Difference'] fmt = (None, '.2f', '.2f', '.2f', '.2%') table = data[['benchmark', f'{metric}_0', f'{metric}_1', 'difference', 'percent']] # Compute the geomean and report on their difference geomean_0 = statistics.geometric_mean(data[f'{metric}_0'].dropna()) geomean_1 = statistics.geometric_mean(data[f'{metric}_1'].dropna()) geomean_row = ['Geomean', geomean_0, geomean_1, (geomean_1 - geomean_0), (geomean_1 - geomean_0) / geomean_0] table.loc[table.index.max() + 1] = geomean_row return tabulate.tabulate(table.set_index('benchmark'), headers=headers, floatfmt=fmt, numalign='right') def create_chart(data, metric, subtitle=None, series_names=None): """ Create a bar chart comparing the given metric across the provided series. """ data = data.rename(columns={f'{metric}_{i}': series_names[i] for i in range(len(series_names))}) title = ' vs '.join(series_names) figure = plotly.express.bar(data, title=title, subtitle=subtitle, x='benchmark', y=series_names, barmode='group') figure.update_layout(xaxis_title='', yaxis_title='', legend_title='') return figure def main(argv): parser = argparse.ArgumentParser( prog='compare-benchmarks', description='Compare the results of multiple sets of benchmarks in LNT format.', epilog='This script depends on the modules listed in `libcxx/utils/requirements.txt`.') parser.add_argument('files', type=argparse.FileType('r'), nargs='+', help='Path to LNT format files containing the benchmark results to compare. In the text format, ' 'exactly two files must be compared.') parser.add_argument('--output', '-o', type=pathlib.Path, required=False, help='Path of a file where to output the resulting comparison. If the output format is `text`, ' 'default to stdout. If the output format is `chart`, default to a temporary file which is ' 'opened automatically once generated, but not removed after creation.') parser.add_argument('--metric', type=str, default='execution_time', help='The metric to compare. LNT data may contain multiple metrics (e.g. code size, execution time, etc) -- ' 'this option allows selecting which metric is being analyzed. The default is `execution_time`.') parser.add_argument('--filter', type=str, required=False, help='An optional regular expression used to filter the benchmarks included in the comparison. ' 'Only benchmarks whose names match the regular expression will be included.') parser.add_argument('--sort', type=str, required=False, default='benchmark', choices=['benchmark', 'baseline', 'candidate', 'percent_diff'], help='Optional sorting criteria for displaying results. By default, results are displayed in ' 'alphabetical order of the benchmark. Supported sorting criteria are: ' '`benchmark` (sort using the alphabetical name of the benchmark), ' '`baseline` (sort using the absolute number of the baseline run), ' '`candidate` (sort using the absolute number of the candidate run), ' 'and `percent_diff` (sort using the percent difference between the baseline and the candidate). ' 'Note that when more than two input files are compared, the only valid sorting order is `benchmark`.') parser.add_argument('--format', type=str, choices=['text', 'chart'], default='text', help='Select the output format. `text` generates a plain-text comparison in tabular form, and `chart` ' 'generates a self-contained HTML graph that can be opened in a browser. The default is `text`.') parser.add_argument('--open', action='store_true', help='Whether to automatically open the generated HTML file when finished. This option only makes sense ' 'when the output format is `chart`.') parser.add_argument('--series-names', type=str, required=False, help='Optional comma-delimited list of names to use for the various series. By default, we use ' 'Baseline and Candidate for two input files, and CandidateN for subsequent inputs.') parser.add_argument('--subtitle', type=str, required=False, help='Optional subtitle to use for the chart. This can be used to help identify the contents of the chart. ' 'This option cannot be used with the plain text output.') args = parser.parse_args(argv) # Validate arguments (the values admissible for various arguments depend on other # arguments, the number of inputs, etc) if args.format == 'text': if len(args.files) != 2: parser.error('--format=text requires exactly two input files to compare') if args.subtitle is not None: parser.error('Passing --subtitle makes no sense with --format=text') if args.open: parser.error('Passing --open makes no sense with --format=text') if len(args.files) != 2 and args.sort != 'benchmark': parser.error('Using any sort order other than `benchmark` requires exactly two input files.') if args.series_names is None: args.series_names = ['Baseline'] if len(args.files) == 2: args.series_names += ['Candidate'] elif len(args.files) > 2: args.series_names.extend(f'Candidate{n}' for n in range(1, len(args.files))) else: args.series_names = args.series_names.split(',') if len(args.series_names) != len(args.files): parser.error(f'Passed incorrect number of series names: got {len(args.series_names)} series names but {len(args.files)} inputs to compare') # Parse the raw LNT data and store each input in a dataframe lnt_inputs = [parse_lnt(file.readlines()) for file in args.files] inputs = [pandas.DataFrame(lnt).rename(columns={args.metric: f'{args.metric}_{i}'}) for (i, lnt) in enumerate(lnt_inputs)] # Join the inputs into a single dataframe data = functools.reduce(lambda a, b: a.merge(b, how='outer', on='benchmark'), inputs) # If we have exactly two data sets, compute additional info in new columns if len(lnt_inputs) == 2: data['difference'] = data[f'{args.metric}_1'] - data[f'{args.metric}_0'] data['percent'] = data['difference'] / data[f'{args.metric}_0'] if args.filter is not None: keeplist = [b for b in data['benchmark'] if re.search(args.filter, b) is not None] data = data[data['benchmark'].isin(keeplist)] # Sort the data by the appropriate criteria if args.sort == 'benchmark': data = data.sort_values(by='benchmark') elif args.sort == 'baseline': data = data.sort_values(by=f'{args.metric}_0') elif args.sort == 'candidate': data = data.sort_values(by=f'{args.metric}_1') elif args.sort == 'percent_diff': data = data.sort_values(by=f'percent') if args.format == 'chart': figure = create_chart(data, args.metric, subtitle=args.subtitle, series_names=args.series_names) do_open = args.output is None or args.open output = args.output or tempfile.NamedTemporaryFile(suffix='.html').name plotly.io.write_html(figure, file=output, auto_open=do_open) else: diff = plain_text_comparison(data, args.metric, baseline_name=args.series_names[0], candidate_name=args.series_names[1]) diff += '\n' if args.output is not None: with open(args.output, 'w') as out: out.write(diff) else: sys.stdout.write(diff) if __name__ == '__main__': main(sys.argv[1:])