use rand::Rng; use test::{black_box, Bencher}; macro_rules! int_log_bench { ($t:ty, $predictable:ident, $random:ident, $random_small:ident) => { #[bench] fn $predictable(bench: &mut Bencher) { bench.iter(|| { for n in 0..(<$t>::BITS / 8) { for i in 1..=(100 as $t) { let x = black_box(i << (n * 8)); black_box(x.log10()); } } }); } #[bench] fn $random(bench: &mut Bencher) { let mut rng = crate::bench_rng(); /* Exponentially distributed random numbers from the whole range of the type. */ let numbers: Vec<$t> = (0..256) .map(|_| { let x = rng.gen::<$t>() >> rng.gen_range(0, <$t>::BITS); if x != 0 { x } else { 1 } }) .collect(); bench.iter(|| { for x in &numbers { black_box(black_box(x).log10()); } }); } #[bench] fn $random_small(bench: &mut Bencher) { let mut rng = crate::bench_rng(); /* Exponentially distributed random numbers from the range 0..256. */ let numbers: Vec<$t> = (0..256) .map(|_| { let x = (rng.gen::() >> rng.gen_range(0, u8::BITS)) as $t; if x != 0 { x } else { 1 } }) .collect(); bench.iter(|| { for x in &numbers { black_box(black_box(x).log10()); } }); } }; } int_log_bench! {u8, u8_log10_predictable, u8_log10_random, u8_log10_random_small} int_log_bench! {u16, u16_log10_predictable, u16_log10_random, u16_log10_random_small} int_log_bench! {u32, u32_log10_predictable, u32_log10_random, u32_log10_random_small} int_log_bench! {u64, u64_log10_predictable, u64_log10_random, u64_log10_random_small} int_log_bench! {u128, u128_log10_predictable, u128_log10_random, u128_log10_random_small}