use std::{ collections::BTreeMap, fs::{self, File}, io::BufReader, path::PathBuf, str::FromStr, }; use anyhow::{Context, Result}; use num_format::{Locale, ToFormattedString}; use plotters::{ backend::SVGBackend, data::fitting_range, prelude::{BindKeyPoints, ChartBuilder, IntoDrawingArea, PathElement, SeriesLabelPosition}, series::LineSeries, style::{Color, RGBAColor, RGBColor}, }; use rustc_hash::FxHashSet; use crate::summarize_bench::data::{BaseBenchmarks, CStats}; type ByModuleCount = BTreeMap; type ByBundler = BTreeMap; type ByBench = BTreeMap; #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] enum Bundler { NextJs11Ssr, NextJs12Ssr, ViteCsr, ViteSsr, ViteSwcCsr, NextJs13Ssr, NextJs13Rsc, NextJs13Rcc, TurbopackCsr, TurbopackSsr, TurbopackRsc, TurbopackRcc, Webpack, Parcel, } impl std::fmt::Display for Bundler { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { write!(f, "{}", self.as_str()) } } impl FromStr for Bundler { type Err = (); fn from_str(s: &str) -> Result { match s { "Next.js 11 SSR" => Ok(Self::NextJs11Ssr), "Next.js 12 SSR" => Ok(Self::NextJs12Ssr), "Next.js 13 SSR" => Ok(Self::NextJs13Ssr), "Next.js 13 RSC" => Ok(Self::NextJs13Rsc), "Next.js 13 RCC" => Ok(Self::NextJs13Rcc), "Turbopack CSR" => Ok(Self::TurbopackCsr), "Turbopack SSR" => Ok(Self::TurbopackSsr), "Turbopack RSC" => Ok(Self::TurbopackRsc), "Turbopack RCC" => Ok(Self::TurbopackRcc), "Vite CSR" => Ok(Self::ViteCsr), "Vite SSR" => Ok(Self::ViteSsr), "Vite SWC CSR" => Ok(Self::ViteSwcCsr), "Webpack" => Ok(Self::Webpack), "Parcel" => Ok(Self::Parcel), _ => Err(()), } } } impl Bundler { fn as_str(&self) -> &'static str { match self { Self::NextJs11Ssr => "Next.js 11 SSR", Self::NextJs12Ssr => "Next.js 12 SSR", Self::NextJs13Ssr => "Next.js 13 SSR", Self::NextJs13Rsc => "Next.js 13 RSC", Self::NextJs13Rcc => "Next.js 13 RCC", Self::TurbopackCsr => "Turbopack CSR", Self::TurbopackSsr => "Turbopack SSR", Self::TurbopackRsc => "Turbopack RSC", Self::TurbopackRcc => "Turbopack RCC", Self::ViteCsr => "Vite CSR", Self::ViteSsr => "Vite SSR", Self::ViteSwcCsr => "Vite SWC CSR", Self::Webpack => "Webpack", Self::Parcel => "Parcel", } } fn color(&self) -> RGBColor { match self { // These are the currently used ones. Self::NextJs12Ssr => plotters::style::full_palette::CYAN, Self::NextJs11Ssr => plotters::style::full_palette::BLUE, Self::TurbopackSsr => plotters::style::full_palette::RED, Self::ViteSwcCsr => plotters::style::full_palette::GREEN, // TODO(alexkirsz) These should probably change to be consistent with the above. Self::NextJs13Ssr => plotters::style::full_palette::PURPLE, Self::NextJs13Rsc => plotters::style::full_palette::PURPLE_300, Self::NextJs13Rcc => plotters::style::full_palette::PURPLE_700, Self::TurbopackCsr => plotters::style::full_palette::RED_200, Self::TurbopackRsc => plotters::style::full_palette::RED_300, Self::TurbopackRcc => plotters::style::full_palette::RED_700, Self::ViteCsr => plotters::style::full_palette::GREEN_200, Self::ViteSsr => plotters::style::full_palette::GREEN_300, Self::Webpack => plotters::style::full_palette::YELLOW, Self::Parcel => plotters::style::full_palette::BROWN, } } } pub fn generate(summary_path: PathBuf, filter_bundlers: Option>) -> Result<()> { let summary_file = File::open(&summary_path)?; let reader = BufReader::new(summary_file); let summary: BaseBenchmarks = serde_json::from_reader(reader)?; let mut by_bench: ByBench = BTreeMap::new(); for (_, bench) in summary.benchmarks { // TODO: Improve heuristic for detecting bundler benchmarks if !bench.info.group_id.starts_with("bench_") { continue; } let Some(function_id) = bench.info.function_id else { continue; }; let Ok(bundler) = Bundler::from_str(&function_id) else { eprintln!("Skipping benchmark with unknown bundler: {function_id}"); continue; }; if filter_bundlers .as_ref() .map(|bundlers| !bundlers.contains(bundler.as_str())) .unwrap_or(false) { continue; } let by_bundler = by_bench.entry(bench.info.group_id).or_default(); let by_module_count = by_bundler.entry(bundler).or_default(); by_module_count.insert( bench .info .value_str .context("Missing value_str")? .split_ascii_whitespace() .collect::>()[0] .parse()?, // we want to use slope instead of mean when available since this is a better // estimation of the real performance values when iterations go to infinity bench.estimates.slope.unwrap_or(bench.estimates.mean), ); } let output_path = summary_path.parent().context("summary_path needs parent")?; generate_scaling(output_path.join("scaling"), &by_bench)?; Ok(()) } #[derive(Debug, Clone, Copy)] enum FormatTimeStyle { Milliseconds, Seconds, } impl FormatTimeStyle { fn format(self, ns: f64) -> String { let value = (match self { FormatTimeStyle::Milliseconds => ns / 1e6, FormatTimeStyle::Seconds => ns / 1e9, } .round() as u64) .to_formatted_string(&Locale::en); format!("{}{}", value, self.unit()) } fn unit(self) -> &'static str { match self { FormatTimeStyle::Milliseconds => "ms", FormatTimeStyle::Seconds => "s", } } } #[derive(Debug, Clone, Copy)] enum Theme { Light, Dark, } impl Theme { fn name(self) -> &'static str { match self { Theme::Light => "light", Theme::Dark => "dark", } } fn legend_background_color(self) -> RGBAColor { match self { Theme::Light => plotters::style::colors::WHITE.into(), Theme::Dark => RGBColor(34, 34, 34).into(), } } fn light_line_color(self) -> RGBAColor { match self { Theme::Light => plotters::style::colors::BLACK.mix(0.1), Theme::Dark => plotters::style::colors::WHITE.mix(0.1), } } fn bold_line_color(self) -> RGBAColor { match self { Theme::Light => plotters::style::colors::BLACK.mix(0.2), Theme::Dark => plotters::style::colors::WHITE.mix(0.2), } } fn axis_line_color(self) -> RGBAColor { match self { Theme::Light => plotters::style::colors::BLACK.into(), Theme::Dark => plotters::style::colors::WHITE.into(), } } fn label_color(self) -> RGBAColor { match self { Theme::Light => plotters::style::colors::BLACK.mix(0.75), Theme::Dark => plotters::style::colors::WHITE.mix(0.75), } } fn axis_desc_color(self) -> RGBAColor { match self { Theme::Light => plotters::style::colors::BLACK.into(), Theme::Dark => plotters::style::colors::WHITE.into(), } } } const THEMES: [Theme; 2] = [Theme::Light, Theme::Dark]; fn generate_scaling(output_path: PathBuf, by_bench: &ByBench) -> Result<()> { fs::create_dir_all(&output_path)?; for theme in THEMES { for (bench_name, by_bundler) in by_bench { let module_counts: FxHashSet<_> = by_bundler .values() .flat_map(|by_module_count| by_module_count.keys()) .copied() .collect(); let module_count_range = fitting_range(module_counts.iter()); // Ensure we have labels for every sampled module count. let module_count_range = module_count_range.with_key_points(module_counts.into_iter().collect()); let time_range_iter = by_bundler.values().flat_map(|by_module_count| { by_module_count.values().map(|stats| stats.point_estimate) }); // Make the time range end 5% higher than the maximum time value so the highest // point is not cut off. let time_range_end = time_range_iter // f64 does not implement Ord. .fold(0.0, |max, time| if time > max { time } else { max }) * 1.05; // Ensure the time range starts at 0 instead of the minimum time value. let time_range = 0.0..time_range_end; let format_time_style = if time_range.end > 10e8 { FormatTimeStyle::Seconds } else { FormatTimeStyle::Milliseconds }; let file_name = output_path.join(format!("{}_{}.svg", bench_name, theme.name())); let root = SVGBackend::new(&file_name, (960, 720)).into_drawing_area(); let mut chart = ChartBuilder::on(&root) .x_label_area_size(60) // The y labels are horizontal and have units, so they take some room. .y_label_area_size(80) .margin(30) .build_cartesian_2d(module_count_range, time_range)?; for (bundler, by_module_count) in by_bundler.iter() { let color = bundler.color(); let points = by_module_count .iter() .map(|(count, stats)| (count.to_owned(), stats.point_estimate)); chart .draw_series(LineSeries::new(points.clone(), color.stroke_width(4)))? .label(bundler.as_str()) .legend(move |(x, y)| { PathElement::new(vec![(x, y), (x + 20, y)], color.stroke_width(4)) }); } // This is the font used by the turbo.build website. let font = r#"ui-sans-serif, system-ui, -apple-system, BlinkMacSystemFont, "Segoe UI", Roboto, "Helvetica Neue", Arial, "Noto Sans", sans-serif, "Apple Color Emoji", "Segoe UI Emoji", "Segoe UI Symbol", "Noto Color Emoji""#; chart .configure_mesh() .x_labels(10) .y_labels(10) .x_desc("Number of modules") .y_desc("Mean time — lower is better") .x_label_style((font, 20, &theme.label_color())) .y_label_style((font, 20, &theme.label_color())) .axis_desc_style((font, 24, &theme.axis_desc_color())) .x_label_formatter(&|v| v.to_formatted_string(&Locale::en)) .y_label_formatter(&|v| format_time_style.format(*v)) .bold_line_style(theme.bold_line_color()) .light_line_style(theme.light_line_color()) .axis_style(theme.axis_line_color()) .draw()?; chart .configure_series_labels() .background_style(theme.legend_background_color()) .border_style(theme.bold_line_color()) .label_font((font, 20, &theme.axis_desc_color())) .position(SeriesLabelPosition::UpperLeft) .margin(16) .draw()?; root.present()?; } } Ok(()) }