//! Benchmarks for chrono that just depend on std #![cfg(feature = "__internal_bench")] use criterion::{black_box, criterion_group, criterion_main, BenchmarkId, Criterion}; use chrono::prelude::*; use chrono::{DateTime, FixedOffset, Local, Utc, __BenchYearFlags}; fn bench_datetime_parse_from_rfc2822(c: &mut Criterion) { c.bench_function("bench_datetime_parse_from_rfc2822", |b| { b.iter(|| { let str = black_box("Wed, 18 Feb 2015 23:16:09 +0000"); DateTime::parse_from_rfc2822(str).unwrap() }) }); } fn bench_datetime_parse_from_rfc3339(c: &mut Criterion) { c.bench_function("bench_datetime_parse_from_rfc3339", |b| { b.iter(|| { let str = black_box("2015-02-18T23:59:60.234567+05:00"); DateTime::parse_from_rfc3339(str).unwrap() }) }); } fn bench_datetime_from_str(c: &mut Criterion) { c.bench_function("bench_datetime_from_str", |b| { b.iter(|| { use std::str::FromStr; let str = black_box("2019-03-30T18:46:57.193Z"); DateTime::::from_str(str).unwrap() }) }); } fn bench_datetime_to_rfc2822(c: &mut Criterion) { let pst = FixedOffset::east_opt(8 * 60 * 60).unwrap(); let dt = pst .from_local_datetime( &NaiveDate::from_ymd_opt(2018, 1, 11) .unwrap() .and_hms_nano_opt(10, 5, 13, 84_660_000) .unwrap(), ) .unwrap(); c.bench_function("bench_datetime_to_rfc2822", |b| b.iter(|| black_box(dt).to_rfc2822())); } fn bench_datetime_to_rfc3339(c: &mut Criterion) { let pst = FixedOffset::east_opt(8 * 60 * 60).unwrap(); let dt = pst .from_local_datetime( &NaiveDate::from_ymd_opt(2018, 1, 11) .unwrap() .and_hms_nano_opt(10, 5, 13, 84_660_000) .unwrap(), ) .unwrap(); c.bench_function("bench_datetime_to_rfc3339", |b| b.iter(|| black_box(dt).to_rfc3339())); } fn bench_year_flags_from_year(c: &mut Criterion) { c.bench_function("bench_year_flags_from_year", |b| { b.iter(|| { for year in -999i32..1000 { let _ = __BenchYearFlags::from_year(black_box(year)); } }) }); } fn bench_get_local_time(c: &mut Criterion) { c.bench_function("bench_get_local_time", |b| { b.iter(|| { let _ = Local::now(); }) }); } /// Returns the number of multiples of `div` in the range `start..end`. /// /// If the range `start..end` is back-to-front, i.e. `start` is greater than `end`, the /// behaviour is defined by the following equation: /// `in_between(start, end, div) == - in_between(end, start, div)`. /// /// When `div` is 1, this is equivalent to `end - start`, i.e. the length of `start..end`. /// /// # Panics /// /// Panics if `div` is not positive. fn in_between(start: i32, end: i32, div: i32) -> i32 { assert!(div > 0, "in_between: nonpositive div = {}", div); let start = (start.div_euclid(div), start.rem_euclid(div)); let end = (end.div_euclid(div), end.rem_euclid(div)); // The lowest multiple of `div` greater than or equal to `start`, divided. let start = start.0 + (start.1 != 0) as i32; // The lowest multiple of `div` greater than or equal to `end`, divided. let end = end.0 + (end.1 != 0) as i32; end - start } /// Alternative implementation to `Datelike::num_days_from_ce` fn num_days_from_ce_alt(date: &Date) -> i32 { let year = date.year(); let diff = move |div| in_between(1, year, div); // 365 days a year, one more in leap years. In the gregorian calendar, leap years are all // the multiples of 4 except multiples of 100 but including multiples of 400. date.ordinal() as i32 + 365 * diff(1) + diff(4) - diff(100) + diff(400) } fn bench_num_days_from_ce(c: &mut Criterion) { let mut group = c.benchmark_group("num_days_from_ce"); for year in &[1, 500, 2000, 2019] { let d = NaiveDate::from_ymd_opt(*year, 1, 1).unwrap(); group.bench_with_input(BenchmarkId::new("new", year), &d, |b, y| { b.iter(|| num_days_from_ce_alt(y)) }); group.bench_with_input(BenchmarkId::new("classic", year), &d, |b, y| { b.iter(|| y.num_days_from_ce()) }); } } criterion_group!( benches, bench_datetime_parse_from_rfc2822, bench_datetime_parse_from_rfc3339, bench_datetime_from_str, bench_datetime_to_rfc2822, bench_datetime_to_rfc3339, bench_year_flags_from_year, bench_num_days_from_ce, bench_get_local_time, ); criterion_main!(benches);