mirror of
https://github.com/ktims/rs-aggregate.git
synced 2024-11-16 07:37:18 -08:00
283 lines
8.6 KiB
Rust
283 lines
8.6 KiB
Rust
use ipnet::Ipv4Net;
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use json::JsonValue;
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use plotters::backend::BitMapBackend;
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use plotters::chart::ChartBuilder;
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use plotters::coord::ranged1d::{IntoSegmentedCoord, SegmentValue};
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use plotters::drawing::IntoDrawingArea;
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use plotters::element::{EmptyElement, Text};
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use plotters::series::{Histogram, PointSeries};
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use plotters::style::full_palette::GREY;
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use plotters::style::text_anchor::{HPos, Pos, VPos};
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use plotters::style::{Color, IntoFont, RGBColor, ShapeStyle, BLACK, WHITE};
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use rand::prelude::*;
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use rand_chacha::ChaChaRng;
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use std::ffi::OsStr;
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use std::io::{Read, Write};
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use std::process::Stdio;
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use tempfile::NamedTempFile;
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const BAR_COLOUR: RGBColor = RGBColor(66, 133, 244);
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#[derive(Clone, Debug)]
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struct TestDefinition {
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cmd: String,
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name: String, // including version
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}
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#[derive(Clone, Debug)]
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struct TestResult {
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mean: f64,
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stddev: f64,
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median: f64,
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min: f64,
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max: f64,
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}
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impl From<JsonValue> for TestResult {
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fn from(value: JsonValue) -> Self {
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Self {
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mean: value["mean"].as_f64().unwrap(),
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stddev: value["stddev"].as_f64().unwrap(),
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median: value["median"].as_f64().unwrap(),
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min: value["min"].as_f64().unwrap(),
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max: value["max"].as_f64().unwrap(),
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}
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}
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}
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fn make_tests(input_path: &str) -> Vec<TestDefinition> {
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let our_version = format!("rs-aggregate {}", env!("CARGO_PKG_VERSION"));
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let our_path = env!("CARGO_BIN_EXE_rs-aggregate");
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let python_version_raw = std::process::Command::new("python3")
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.arg("--version")
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.stdout(Stdio::piped())
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.spawn()
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.expect("Unable to run python3")
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.wait_with_output()
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.expect("Couldn't get python3 output")
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.stdout;
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let python_version = String::from_utf8_lossy(&python_version_raw);
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let agg6_version_raw = std::process::Command::new("python3")
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.arg("-m")
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.arg("aggregate6")
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.arg("-V")
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.stdout(Stdio::piped())
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.spawn()
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.expect("Unable to run aggregate6")
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.wait_with_output()
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.expect("Couldn't get aggregate6 output")
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.stdout;
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let agg6_version = String::from_utf8_lossy(&agg6_version_raw);
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vec![
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TestDefinition {
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cmd: format!("{} {}", our_path, input_path),
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name: our_version.into(),
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},
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TestDefinition {
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cmd: format!("python3 -m aggregate6 {}", input_path),
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name: format!("{} ({})", agg6_version.trim(), python_version.trim()),
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},
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]
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}
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fn make_v4_tests(input_path: &str) -> Vec<TestDefinition> {
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let mut all_tests = make_tests(input_path);
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let iprange_version_raw = std::process::Command::new("iprange")
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.arg("--version")
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.stdout(Stdio::piped())
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.spawn()
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.expect("Unable to run iprange")
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.wait_with_output()
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.expect("Couldn't get iprange output")
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.stdout;
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let iprange_version = String::from_utf8_lossy(&iprange_version_raw);
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all_tests.push(TestDefinition {
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cmd: format!("iprange --optimize {}", input_path),
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name: iprange_version.lines().nth(0).unwrap().into(),
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});
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all_tests
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}
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// We don't really care if aggregation will actually be possible, but we'll only
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// generate prefixes with length 8->24 so some should be possible.
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fn make_random_prefix(rng: &mut impl Rng) -> Ipv4Net {
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let prefix_len: u8 = rng.gen_range(8..25);
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let netaddr: u32 = rng.gen_range(0..(1 << prefix_len)) << 32 - prefix_len;
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Ipv4Net::new(netaddr.into(), prefix_len).unwrap()
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}
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// Generate 1024 random v4 addresses as a startup time test
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fn make_startup_tests() -> (NamedTempFile, Vec<TestDefinition>) {
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let mut rng = ChaChaRng::seed_from_u64(0); // use a repeatable rng with custom seed
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let addresses = std::iter::repeat_with(|| make_random_prefix(&mut rng)).take(1024);
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let mut outfile = NamedTempFile::new().unwrap();
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let mut outfile_f = outfile.as_file();
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for addr in addresses {
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outfile_f.write_fmt(format_args!("{}\n", addr)).unwrap();
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}
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outfile.flush().unwrap();
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let outpath = outfile.path().as_os_str().to_string_lossy().to_string();
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// outfile needs to live on so destructor doesn't delete it before we run the benches
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(outfile, make_v4_tests(outpath.as_str()))
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}
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fn hyperfine_harness<S>(cmd: S) -> Result<TestResult, Box<dyn std::error::Error>>
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where
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S: AsRef<OsStr>,
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{
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let resultfile = NamedTempFile::new().expect("Unable to create tempfile");
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let mut process = std::process::Command::new("hyperfine")
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.arg("--export-json")
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.arg(resultfile.path())
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.arg("--min-runs")
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.arg("10")
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.arg("-N")
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.arg("--")
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.arg(&cmd)
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.stdout(Stdio::null())
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.spawn()
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.expect("unable to run command");
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let _rc = process.wait().expect("unable to wait on process");
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let mut raw_result_buf = Vec::new();
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resultfile
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.as_file()
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.read_to_end(&mut raw_result_buf)
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.expect("Can't read results");
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resultfile.close().unwrap();
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let hf_result = json::parse(&String::from_utf8_lossy(&raw_result_buf)).expect(
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format!(
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"Can't parse hyperfine json results from command `{}`",
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cmd.as_ref().to_string_lossy()
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)
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.as_str(),
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);
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let final_result = &hf_result["results"][0];
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Ok((final_result.clone()).into())
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}
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fn plot_results(
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results: &Vec<(TestDefinition, TestResult)>,
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caption: &str,
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outfile: &str,
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) -> Result<(), Box<dyn std::error::Error>> {
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// Second result is our baseline
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let norm_numerator = results[1].1.mean;
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let max_result = norm_numerator / results.iter().map(|x| x.1.mean).reduce(f64::min).unwrap();
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let drawing = BitMapBackend::new(outfile, (640, 480)).into_drawing_area();
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drawing.fill(&WHITE)?;
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let mut chart = ChartBuilder::on(&drawing)
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.x_label_area_size(40)
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.y_label_area_size(40)
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.caption(caption, ("Roboto", 24).into_font())
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.build_cartesian_2d((0..results.len() - 1).into_segmented(), 0.0..max_result)?;
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chart
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.configure_mesh()
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.y_desc("Speedup vs aggregate6")
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.y_labels(5)
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.y_label_formatter(&|x| std::fmt::format(format_args!("{:.0}", *x)))
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.light_line_style(WHITE)
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.bold_line_style(GREY)
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.disable_x_mesh()
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.x_label_style(("Roboto", 18).into_font())
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.x_label_formatter(&|x| match x {
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SegmentValue::Exact(val) => results[*val].0.name.clone(),
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SegmentValue::CenterOf(val) => results[*val].0.name.clone(),
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SegmentValue::Last => String::new(),
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})
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.draw()?;
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chart.draw_series(
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Histogram::vertical(&chart)
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.style(BAR_COLOUR.filled())
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.margin(10)
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.data(
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results
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.iter()
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.enumerate()
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.map(|(x, y)| (x, norm_numerator / y.1.mean)),
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),
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)?;
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chart.draw_series(PointSeries::of_element(
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results
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.iter()
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.enumerate()
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.map(|(x, y)| (SegmentValue::CenterOf(x), norm_numerator / y.1.mean)),
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5,
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ShapeStyle::from(&BLACK).filled(),
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&|coord, _size, _style| {
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let (target_y, target_colour) = if coord.1 < 25.0 {
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(-25, BAR_COLOUR)
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} else {
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(25, WHITE)
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};
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EmptyElement::at(coord.clone())
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+ Text::new(
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format!("{:.1} x", coord.1),
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(0, target_y),
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("Roboto", 18)
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.into_font()
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.color(&target_colour)
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.pos(Pos::new(HPos::Center, VPos::Center)),
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)
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},
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))?;
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Ok(())
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}
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fn main() -> Result<(), Box<dyn std::error::Error>> {
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run_and_plot(
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make_tests("test-data/dfz_combined/input"),
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"doc/perfcomp_all.png",
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"IPv4 & IPv6 Full DFZ",
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)?;
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run_and_plot(
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make_v4_tests("test-data/dfz_v4/input"),
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"doc/perfcomp_v4.png",
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"IPv4 Full DFZ",
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)?;
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// Need to hold on to tmpfile so it doesn't get deleted before we can bench
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let (_tmpfile, tests) = make_startup_tests();
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run_and_plot(
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tests,
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"doc/perfcomp_startup.png",
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"1024 Random IPv4 Prefixes",
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)?;
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Ok(())
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}
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fn run_and_plot(
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tests: Vec<TestDefinition>,
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filename: &str,
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caption: &str,
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) -> Result<(), Box<dyn std::error::Error>> {
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let mut results: Vec<(TestDefinition, TestResult)> = Vec::new();
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for test in tests {
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println!("Running bench: {:?}", test);
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results.push((test.clone(), hyperfine_harness(&test.cmd)?));
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}
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plot_results(&results, caption, filename)?;
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Ok(())
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}
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