benches/seq.rs - third_party/rust-mirrors/rand - Git at Google

 // Copyright 2018 Developers of the Rand project.
 //
 // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
 // https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
 // <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
 // option. This file may not be copied, modified, or distributed
 // except according to those terms.

 #![feature(test)]
 #![allow(non_snake_case)]

 extern crate test;

 use test::Bencher;

 use rand::prelude::*;
 use rand::seq::*;
 use std::mem::size_of;

 // We force use of 32-bit RNG since seq code is optimised for use with 32-bit
 // generators on all platforms.
 use rand_pcg::Pcg32 as SmallRng;

 const RAND_BENCH_N: u64 = 1000;

 #[bench]
 fn seq_shuffle_100(b: &mut Bencher) {
     let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
     let x : &mut [usize] = &mut [1; 100];
     b.iter(|| {
         x.shuffle(&mut rng);
         x[0]
     })
 }

 #[bench]
 fn seq_slice_choose_1_of_1000(b: &mut Bencher) {
     let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
     let x : &mut [usize] = &mut [1; 1000];
     for i in 0..1000 {
         x[i] = i;
     }
     b.iter(|| {
         let mut s = 0;
         for _ in 0..RAND_BENCH_N {
             s += x.choose(&mut rng).unwrap();
         }
         s
     });
     b.bytes = size_of::<usize>() as u64 * crate::RAND_BENCH_N;
 }

 macro_rules! seq_slice_choose_multiple {
     ($name:ident, $amount:expr, $length:expr) => {
         #[bench]
         fn $name(b: &mut Bencher) {
             let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
             let x : &[i32] = &[$amount; $length];
             let mut result = [0i32; $amount];
             b.iter(|| {
                 // Collect full result to prevent unwanted shortcuts getting
                 // first element (in case sample_indices returns an iterator).
                 for (slot, sample) in result.iter_mut().zip(
                     x.choose_multiple(&mut rng, $amount)) {
                     *slot = *sample;
                 }
                 result[$amount-1]
             })
         }
     }
 }

 seq_slice_choose_multiple!(seq_slice_choose_multiple_1_of_1000, 1, 1000);
 seq_slice_choose_multiple!(seq_slice_choose_multiple_950_of_1000, 950, 1000);
 seq_slice_choose_multiple!(seq_slice_choose_multiple_10_of_100, 10, 100);
 seq_slice_choose_multiple!(seq_slice_choose_multiple_90_of_100, 90, 100);

 #[bench]
 fn seq_iter_choose_from_1000(b: &mut Bencher) {
     let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
     let x : &mut [usize] = &mut [1; 1000];
     for i in 0..1000 {
         x[i] = i;
     }
     b.iter(|| {
         let mut s = 0;
         for _ in 0..RAND_BENCH_N {
             s += x.iter().choose(&mut rng).unwrap();
         }
         s
     });
     b.bytes = size_of::<usize>() as u64 * crate::RAND_BENCH_N;
 }

 #[derive(Clone)]
 struct UnhintedIterator<I: Iterator + Clone> {
     iter: I,
 }
 impl<I: Iterator + Clone> Iterator for UnhintedIterator<I> {
     type Item = I::Item;
     fn next(&mut self) -> Option<Self::Item> {
         self.iter.next()
     }
 }

 #[derive(Clone)]
 struct WindowHintedIterator<I: ExactSizeIterator + Iterator + Clone> {
     iter: I,
     window_size: usize,
 }
 impl<I: ExactSizeIterator + Iterator + Clone> Iterator for WindowHintedIterator<I> {
     type Item = I::Item;
     fn next(&mut self) -> Option<Self::Item> {
         self.iter.next()
     }
     fn size_hint(&self) -> (usize, Option<usize>) {
         (std::cmp::min(self.iter.len(), self.window_size), None)
     }
 }

 #[bench]
 fn seq_iter_unhinted_choose_from_1000(b: &mut Bencher) {
     let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
     let x : &[usize] = &[1; 1000];
     b.iter(|| {
         UnhintedIterator { iter: x.iter() }.choose(&mut rng).unwrap()
     })
 }

 #[bench]
 fn seq_iter_window_hinted_choose_from_1000(b: &mut Bencher) {
     let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
     let x : &[usize] = &[1; 1000];
     b.iter(|| {
         WindowHintedIterator { iter: x.iter(), window_size: 7 }.choose(&mut rng)
     })
 }

 #[bench]
 fn seq_iter_choose_multiple_10_of_100(b: &mut Bencher) {
     let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
     let x : &[usize] = &[1; 100];
     b.iter(|| {
         x.iter().cloned().choose_multiple(&mut rng, 10)
     })
 }

 #[bench]
 fn seq_iter_choose_multiple_fill_10_of_100(b: &mut Bencher) {
     let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
     let x : &[usize] = &[1; 100];
     let mut buf = [0; 10];
     b.iter(|| {
         x.iter().cloned().choose_multiple_fill(&mut rng, &mut buf)
     })
 }

 macro_rules! sample_indices {
     ($name:ident, $fn:ident, $amount:expr, $length:expr) => {
         #[bench]
         fn $name(b: &mut Bencher) {
             let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
             b.iter(|| {
                 index::$fn(&mut rng, $length, $amount)
             })
         }
     }
 }

 sample_indices!(misc_sample_indices_1_of_1k, sample, 1, 1000);
 sample_indices!(misc_sample_indices_10_of_1k, sample, 10, 1000);
 sample_indices!(misc_sample_indices_100_of_1k, sample, 100, 1000);
 sample_indices!(misc_sample_indices_100_of_1M, sample, 100, 1000_000);
 sample_indices!(misc_sample_indices_100_of_1G, sample, 100, 1000_000_000);
 sample_indices!(misc_sample_indices_200_of_1G, sample, 200, 1000_000_000);
 sample_indices!(misc_sample_indices_400_of_1G, sample, 400, 1000_000_000);
 sample_indices!(misc_sample_indices_600_of_1G, sample, 600, 1000_000_000);
	// Copyright 2018 Developers of the Rand project.
	//
	// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
	// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
	// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
	// option. This file may not be copied, modified, or distributed
	// except according to those terms.

	#![feature(test)]
	#![allow(non_snake_case)]

	extern crate test;

	use test::Bencher;

	use rand::prelude::*;
	use rand::seq::*;
	use std::mem::size_of;

	// We force use of 32-bit RNG since seq code is optimised for use with 32-bit
	// generators on all platforms.
	use rand_pcg::Pcg32 as SmallRng;

	const RAND_BENCH_N: u64 = 1000;

	#[bench]
	fn seq_shuffle_100(b: &mut Bencher) {
	let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
	let x : &mut [usize] = &mut [1; 100];
	b.iter(\|\| {
	x.shuffle(&mut rng);
	x[0]
	})
	}

	#[bench]
	fn seq_slice_choose_1_of_1000(b: &mut Bencher) {
	let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
	let x : &mut [usize] = &mut [1; 1000];
	for i in 0..1000 {
	x[i] = i;
	}
	b.iter(\|\| {
	let mut s = 0;
	for _ in 0..RAND_BENCH_N {
	s += x.choose(&mut rng).unwrap();
	}
	s
	});
	b.bytes = size_of::<usize>() as u64 * crate::RAND_BENCH_N;
	}

	macro_rules! seq_slice_choose_multiple {
	($name:ident, $amount:expr, $length:expr) => {
	#[bench]
	fn $name(b: &mut Bencher) {
	let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
	let x : &[i32] = &[$amount; $length];
	let mut result = [0i32; $amount];
	b.iter(\|\| {
	// Collect full result to prevent unwanted shortcuts getting
	// first element (in case sample_indices returns an iterator).
	for (slot, sample) in result.iter_mut().zip(
	x.choose_multiple(&mut rng, $amount)) {
	slot = sample;
	}
	result[$amount-1]
	})
	}
	}
	}

	seq_slice_choose_multiple!(seq_slice_choose_multiple_1_of_1000, 1, 1000);
	seq_slice_choose_multiple!(seq_slice_choose_multiple_950_of_1000, 950, 1000);
	seq_slice_choose_multiple!(seq_slice_choose_multiple_10_of_100, 10, 100);
	seq_slice_choose_multiple!(seq_slice_choose_multiple_90_of_100, 90, 100);

	#[bench]
	fn seq_iter_choose_from_1000(b: &mut Bencher) {
	let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
	let x : &mut [usize] = &mut [1; 1000];
	for i in 0..1000 {
	x[i] = i;
	}
	b.iter(\|\| {
	let mut s = 0;
	for _ in 0..RAND_BENCH_N {
	s += x.iter().choose(&mut rng).unwrap();
	}
	s
	});
	b.bytes = size_of::<usize>() as u64 * crate::RAND_BENCH_N;
	}

	#[derive(Clone)]
	struct UnhintedIterator<I: Iterator + Clone> {
	iter: I,
	}
	impl<I: Iterator + Clone> Iterator for UnhintedIterator<I> {
	type Item = I::Item;
	fn next(&mut self) -> Option<Self::Item> {
	self.iter.next()
	}
	}

	#[derive(Clone)]
	struct WindowHintedIterator<I: ExactSizeIterator + Iterator + Clone> {
	iter: I,
	window_size: usize,
	}
	impl<I: ExactSizeIterator + Iterator + Clone> Iterator for WindowHintedIterator<I> {
	type Item = I::Item;
	fn next(&mut self) -> Option<Self::Item> {
	self.iter.next()
	}
	fn size_hint(&self) -> (usize, Option<usize>) {
	(std::cmp::min(self.iter.len(), self.window_size), None)
	}
	}

	#[bench]
	fn seq_iter_unhinted_choose_from_1000(b: &mut Bencher) {
	let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
	let x : &[usize] = &[1; 1000];
	b.iter(\|\| {
	UnhintedIterator { iter: x.iter() }.choose(&mut rng).unwrap()
	})
	}

	#[bench]
	fn seq_iter_window_hinted_choose_from_1000(b: &mut Bencher) {
	let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
	let x : &[usize] = &[1; 1000];
	b.iter(\|\| {
	WindowHintedIterator { iter: x.iter(), window_size: 7 }.choose(&mut rng)
	})
	}

	#[bench]
	fn seq_iter_choose_multiple_10_of_100(b: &mut Bencher) {
	let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
	let x : &[usize] = &[1; 100];
	b.iter(\|\| {
	x.iter().cloned().choose_multiple(&mut rng, 10)
	})
	}

	#[bench]
	fn seq_iter_choose_multiple_fill_10_of_100(b: &mut Bencher) {
	let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
	let x : &[usize] = &[1; 100];
	let mut buf = [0; 10];
	b.iter(\|\| {
	x.iter().cloned().choose_multiple_fill(&mut rng, &mut buf)
	})
	}

	macro_rules! sample_indices {
	($name:ident, $fn:ident, $amount:expr, $length:expr) => {
	#[bench]
	fn $name(b: &mut Bencher) {
	let mut rng = SmallRng::from_rng(thread_rng()).unwrap();
	b.iter(\|\| {
	index::$fn(&mut rng, $length, $amount)
	})
	}
	}
	}

	sample_indices!(misc_sample_indices_1_of_1k, sample, 1, 1000);
	sample_indices!(misc_sample_indices_10_of_1k, sample, 10, 1000);
	sample_indices!(misc_sample_indices_100_of_1k, sample, 100, 1000);
	sample_indices!(misc_sample_indices_100_of_1M, sample, 100, 1000_000);
	sample_indices!(misc_sample_indices_100_of_1G, sample, 100, 1000_000_000);
	sample_indices!(misc_sample_indices_200_of_1G, sample, 200, 1000_000_000);
	sample_indices!(misc_sample_indices_400_of_1G, sample, 400, 1000_000_000);
	sample_indices!(misc_sample_indices_600_of_1G, sample, 600, 1000_000_000);