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Diffstat (limited to 'rand/rand_distr/benches/distributions.rs')
| -rw-r--r-- | rand/rand_distr/benches/distributions.rs | 316 |
1 files changed, 316 insertions, 0 deletions
diff --git a/rand/rand_distr/benches/distributions.rs b/rand/rand_distr/benches/distributions.rs new file mode 100644 index 0000000..63bde36 --- /dev/null +++ b/rand/rand_distr/benches/distributions.rs @@ -0,0 +1,316 @@ +// 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)] + +const RAND_BENCH_N: u64 = 1000; + +use std::mem::size_of; +use std::num::{NonZeroU8, NonZeroU16, NonZeroU32, NonZeroU64, NonZeroU128}; +use test::Bencher; +use std::time::Duration; + +use rand::prelude::*; +use rand_distr::{*, weighted::WeightedIndex}; + +// At this time, distributions are optimised for 64-bit platforms. +use rand_pcg::Pcg64Mcg; + +macro_rules! distr_int { + ($fnn:ident, $ty:ty, $distr:expr) => { + #[bench] + fn $fnn(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_entropy(); + let distr = $distr; + + b.iter(|| { + let mut accum = 0 as $ty; + for _ in 0..RAND_BENCH_N { + let x: $ty = distr.sample(&mut rng); + accum = accum.wrapping_add(x); + } + accum + }); + b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N; + } + } +} + +macro_rules! distr_nz_int { + ($fnn:ident, $tynz:ty, $ty:ty, $distr:expr) => { + #[bench] + fn $fnn(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_entropy(); + let distr = $distr; + + b.iter(|| { + let mut accum = 0 as $ty; + for _ in 0..RAND_BENCH_N { + let x: $tynz = distr.sample(&mut rng); + accum = accum.wrapping_add(x.get()); + } + accum + }); + b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N; + } + } +} + +macro_rules! distr_float { + ($fnn:ident, $ty:ty, $distr:expr) => { + #[bench] + fn $fnn(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_entropy(); + let distr = $distr; + + b.iter(|| { + let mut accum = 0.0; + for _ in 0..RAND_BENCH_N { + let x: $ty = distr.sample(&mut rng); + accum += x; + } + accum + }); + b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N; + } + } +} + +macro_rules! distr_duration { + ($fnn:ident, $distr:expr) => { + #[bench] + fn $fnn(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_entropy(); + let distr = $distr; + + b.iter(|| { + let mut accum = Duration::new(0, 0); + for _ in 0..RAND_BENCH_N { + let x: Duration = distr.sample(&mut rng); + accum = accum.checked_add(x).unwrap_or(Duration::new(u64::max_value(), 999_999_999)); + } + accum + }); + b.bytes = size_of::<Duration>() as u64 * RAND_BENCH_N; + } + } +} + +macro_rules! distr { + ($fnn:ident, $ty:ty, $distr:expr) => { + #[bench] + fn $fnn(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_entropy(); + let distr = $distr; + + b.iter(|| { + let mut accum = 0u32; + for _ in 0..RAND_BENCH_N { + let x: $ty = distr.sample(&mut rng); + accum = accum.wrapping_add(x as u32); + } + accum + }); + b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N; + } + } +} + +macro_rules! distr_arr { + ($fnn:ident, $ty:ty, $distr:expr) => { + #[bench] + fn $fnn(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_entropy(); + let distr = $distr; + + b.iter(|| { + let mut accum = 0u32; + for _ in 0..RAND_BENCH_N { + let x: $ty = distr.sample(&mut rng); + accum = accum.wrapping_add(x[0] as u32); + } + accum + }); + b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N; + } + } +} + +// uniform +distr_int!(distr_uniform_i8, i8, Uniform::new(20i8, 100)); +distr_int!(distr_uniform_i16, i16, Uniform::new(-500i16, 2000)); +distr_int!(distr_uniform_i32, i32, Uniform::new(-200_000_000i32, 800_000_000)); +distr_int!(distr_uniform_i64, i64, Uniform::new(3i64, 123_456_789_123)); +distr_int!(distr_uniform_i128, i128, Uniform::new(-123_456_789_123i128, 123_456_789_123_456_789)); +distr_int!(distr_uniform_usize16, usize, Uniform::new(0usize, 0xb9d7)); +distr_int!(distr_uniform_usize32, usize, Uniform::new(0usize, 0x548c0f43)); +#[cfg(target_pointer_width = "64")] +distr_int!(distr_uniform_usize64, usize, Uniform::new(0usize, 0x3a42714f2bf927a8)); +distr_int!(distr_uniform_isize, isize, Uniform::new(-1060478432isize, 1858574057)); + +distr_float!(distr_uniform_f32, f32, Uniform::new(2.26f32, 2.319)); +distr_float!(distr_uniform_f64, f64, Uniform::new(2.26f64, 2.319)); + +const LARGE_SEC: u64 = u64::max_value() / 1000; + +distr_duration!(distr_uniform_duration_largest, + Uniform::new_inclusive(Duration::new(0, 0), Duration::new(u64::max_value(), 999_999_999)) +); +distr_duration!(distr_uniform_duration_large, + Uniform::new(Duration::new(0, 0), Duration::new(LARGE_SEC, 1_000_000_000 / 2)) +); +distr_duration!(distr_uniform_duration_one, + Uniform::new(Duration::new(0, 0), Duration::new(1, 0)) +); +distr_duration!(distr_uniform_duration_variety, + Uniform::new(Duration::new(10000, 423423), Duration::new(200000, 6969954)) +); +distr_duration!(distr_uniform_duration_edge, + Uniform::new_inclusive(Duration::new(LARGE_SEC, 999_999_999), Duration::new(LARGE_SEC + 1, 1)) +); + + +// standard +distr_int!(distr_standard_i8, i8, Standard); +distr_int!(distr_standard_i16, i16, Standard); +distr_int!(distr_standard_i32, i32, Standard); +distr_int!(distr_standard_i64, i64, Standard); +distr_int!(distr_standard_i128, i128, Standard); +distr_nz_int!(distr_standard_nz8, NonZeroU8, u8, Standard); +distr_nz_int!(distr_standard_nz16, NonZeroU16, u16, Standard); +distr_nz_int!(distr_standard_nz32, NonZeroU32, u32, Standard); +distr_nz_int!(distr_standard_nz64, NonZeroU64, u64, Standard); +distr_nz_int!(distr_standard_nz128, NonZeroU128, u128, Standard); + +distr!(distr_standard_bool, bool, Standard); +distr!(distr_standard_alphanumeric, char, Alphanumeric); +distr!(distr_standard_codepoint, char, Standard); + +distr_float!(distr_standard_f32, f32, Standard); +distr_float!(distr_standard_f64, f64, Standard); +distr_float!(distr_open01_f32, f32, Open01); +distr_float!(distr_open01_f64, f64, Open01); +distr_float!(distr_openclosed01_f32, f32, OpenClosed01); +distr_float!(distr_openclosed01_f64, f64, OpenClosed01); + +// distributions +distr_float!(distr_exp, f64, Exp::new(1.23 * 4.56).unwrap()); +distr_float!(distr_normal, f64, Normal::new(-1.23, 4.56).unwrap()); +distr_float!(distr_log_normal, f64, LogNormal::new(-1.23, 4.56).unwrap()); +distr_float!(distr_gamma_large_shape, f64, Gamma::new(10., 1.0).unwrap()); +distr_float!(distr_gamma_small_shape, f64, Gamma::new(0.1, 1.0).unwrap()); +distr_float!(distr_cauchy, f64, Cauchy::new(4.2, 6.9).unwrap()); +distr_float!(distr_triangular, f64, Triangular::new(0., 1., 0.9).unwrap()); +distr_int!(distr_binomial, u64, Binomial::new(20, 0.7).unwrap()); +distr_int!(distr_binomial_small, u64, Binomial::new(1000000, 1e-30).unwrap()); +distr_int!(distr_poisson, u64, Poisson::new(4.0).unwrap()); +distr!(distr_bernoulli, bool, Bernoulli::new(0.18).unwrap()); +distr_arr!(distr_circle, [f64; 2], UnitCircle); +distr_arr!(distr_sphere, [f64; 3], UnitSphere); + +// Weighted +distr_int!(distr_weighted_i8, usize, WeightedIndex::new(&[1i8, 2, 3, 4, 12, 0, 2, 1]).unwrap()); +distr_int!(distr_weighted_u32, usize, WeightedIndex::new(&[1u32, 2, 3, 4, 12, 0, 2, 1]).unwrap()); +distr_int!(distr_weighted_f64, usize, WeightedIndex::new(&[1.0f64, 0.001, 1.0/3.0, 4.01, 0.0, 3.3, 22.0, 0.001]).unwrap()); +distr_int!(distr_weighted_large_set, usize, WeightedIndex::new((0..10000).rev().chain(1..10001)).unwrap()); + +distr_int!(distr_weighted_alias_method_i8, usize, weighted::alias_method::WeightedIndex::new(vec![1i8, 2, 3, 4, 12, 0, 2, 1]).unwrap()); +distr_int!(distr_weighted_alias_method_u32, usize, weighted::alias_method::WeightedIndex::new(vec![1u32, 2, 3, 4, 12, 0, 2, 1]).unwrap()); +distr_int!(distr_weighted_alias_method_f64, usize, weighted::alias_method::WeightedIndex::new(vec![1.0f64, 0.001, 1.0/3.0, 4.01, 0.0, 3.3, 22.0, 0.001]).unwrap()); +distr_int!(distr_weighted_alias_method_large_set, usize, weighted::alias_method::WeightedIndex::new((0..10000).rev().chain(1..10001).collect()).unwrap()); + +// construct and sample from a range +macro_rules! gen_range_int { + ($fnn:ident, $ty:ident, $low:expr, $high:expr) => { + #[bench] + fn $fnn(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_entropy(); + + b.iter(|| { + let mut high = $high; + let mut accum: $ty = 0; + for _ in 0..RAND_BENCH_N { + accum = accum.wrapping_add(rng.gen_range($low, high)); + // force recalculation of range each time + high = high.wrapping_add(1) & std::$ty::MAX; + } + accum + }); + b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N; + } + } +} + +gen_range_int!(gen_range_i8, i8, -20i8, 100); +gen_range_int!(gen_range_i16, i16, -500i16, 2000); +gen_range_int!(gen_range_i32, i32, -200_000_000i32, 800_000_000); +gen_range_int!(gen_range_i64, i64, 3i64, 123_456_789_123); +gen_range_int!(gen_range_i128, i128, -12345678901234i128, 123_456_789_123_456_789); + +// construct and sample from a floating-point range +macro_rules! gen_range_float { + ($fnn:ident, $ty:ident, $low:expr, $high:expr) => { + #[bench] + fn $fnn(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_entropy(); + + b.iter(|| { + let mut high = $high; + let mut low = $low; + let mut accum: $ty = 0.0; + for _ in 0..RAND_BENCH_N { + accum += rng.gen_range(low, high); + // force recalculation of range each time + low += 0.9; + high += 1.1; + } + accum + }); + b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N; + } + } +} + +gen_range_float!(gen_range_f32, f32, -20000.0f32, 100000.0); +gen_range_float!(gen_range_f64, f64, 123.456f64, 7890.12); + +#[bench] +fn dist_iter(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_entropy(); + let distr = Normal::new(-2.71828, 3.14159).unwrap(); + let mut iter = distr.sample_iter(&mut rng); + + b.iter(|| { + let mut accum = 0.0; + for _ in 0..RAND_BENCH_N { + accum += iter.next().unwrap(); + } + accum + }); + b.bytes = size_of::<f64>() as u64 * RAND_BENCH_N; +} + +macro_rules! sample_binomial { + ($name:ident, $n:expr, $p:expr) => { + #[bench] + fn $name(b: &mut Bencher) { + let mut rng = Pcg64Mcg::from_rng(&mut thread_rng()).unwrap(); + let (n, p) = ($n, $p); + b.iter(|| { + let d = Binomial::new(n, p).unwrap(); + rng.sample(d) + }) + } + } +} + +sample_binomial!(misc_binomial_1, 1, 0.9); +sample_binomial!(misc_binomial_10, 10, 0.9); +sample_binomial!(misc_binomial_100, 100, 0.99); +sample_binomial!(misc_binomial_1000, 1000, 0.01); +sample_binomial!(misc_binomial_1e12, 1000_000_000_000, 0.2); |