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Diffstat (limited to 'vendor/num-integer/benches/average.rs')
| -rw-r--r-- | vendor/num-integer/benches/average.rs | 414 |
1 files changed, 0 insertions, 414 deletions
diff --git a/vendor/num-integer/benches/average.rs b/vendor/num-integer/benches/average.rs deleted file mode 100644 index 05d824c84..000000000 --- a/vendor/num-integer/benches/average.rs +++ /dev/null @@ -1,414 +0,0 @@ -//! Benchmark sqrt and cbrt - -#![feature(test)] - -extern crate num_integer; -extern crate num_traits; -extern crate test; - -use num_integer::Integer; -use num_traits::{AsPrimitive, PrimInt, WrappingAdd, WrappingMul}; -use std::cmp::{max, min}; -use std::fmt::Debug; -use test::{black_box, Bencher}; - -// --- Utilities for RNG ---------------------------------------------------- - -trait BenchInteger: Integer + PrimInt + WrappingAdd + WrappingMul + 'static {} - -impl<T> BenchInteger for T where T: Integer + PrimInt + WrappingAdd + WrappingMul + 'static {} - -// Simple PRNG so we don't have to worry about rand compatibility -fn lcg<T>(x: T) -> T -where - u32: AsPrimitive<T>, - T: BenchInteger, -{ - // LCG parameters from Numerical Recipes - // (but we're applying it to arbitrary sizes) - const LCG_A: u32 = 1664525; - const LCG_C: u32 = 1013904223; - x.wrapping_mul(&LCG_A.as_()).wrapping_add(&LCG_C.as_()) -} - -// --- Alt. Implementations ------------------------------------------------- - -trait NaiveAverage { - fn naive_average_ceil(&self, other: &Self) -> Self; - fn naive_average_floor(&self, other: &Self) -> Self; -} - -trait UncheckedAverage { - fn unchecked_average_ceil(&self, other: &Self) -> Self; - fn unchecked_average_floor(&self, other: &Self) -> Self; -} - -trait ModuloAverage { - fn modulo_average_ceil(&self, other: &Self) -> Self; - fn modulo_average_floor(&self, other: &Self) -> Self; -} - -macro_rules! naive_average { - ($T:ident) => { - impl super::NaiveAverage for $T { - fn naive_average_floor(&self, other: &$T) -> $T { - match self.checked_add(*other) { - Some(z) => z.div_floor(&2), - None => { - if self > other { - let diff = self - other; - other + diff.div_floor(&2) - } else { - let diff = other - self; - self + diff.div_floor(&2) - } - } - } - } - fn naive_average_ceil(&self, other: &$T) -> $T { - match self.checked_add(*other) { - Some(z) => z.div_ceil(&2), - None => { - if self > other { - let diff = self - other; - self - diff.div_floor(&2) - } else { - let diff = other - self; - other - diff.div_floor(&2) - } - } - } - } - } - }; -} - -macro_rules! unchecked_average { - ($T:ident) => { - impl super::UncheckedAverage for $T { - fn unchecked_average_floor(&self, other: &$T) -> $T { - self.wrapping_add(*other) / 2 - } - fn unchecked_average_ceil(&self, other: &$T) -> $T { - (self.wrapping_add(*other) / 2).wrapping_add(1) - } - } - }; -} - -macro_rules! modulo_average { - ($T:ident) => { - impl super::ModuloAverage for $T { - fn modulo_average_ceil(&self, other: &$T) -> $T { - let (q1, r1) = self.div_mod_floor(&2); - let (q2, r2) = other.div_mod_floor(&2); - q1 + q2 + (r1 | r2) - } - fn modulo_average_floor(&self, other: &$T) -> $T { - let (q1, r1) = self.div_mod_floor(&2); - let (q2, r2) = other.div_mod_floor(&2); - q1 + q2 + (r1 * r2) - } - } - }; -} - -// --- Bench functions ------------------------------------------------------ - -fn bench_unchecked<T, F>(b: &mut Bencher, v: &[(T, T)], f: F) -where - T: Integer + Debug + Copy, - F: Fn(&T, &T) -> T, -{ - b.iter(|| { - for (x, y) in v { - black_box(f(x, y)); - } - }); -} - -fn bench_ceil<T, F>(b: &mut Bencher, v: &[(T, T)], f: F) -where - T: Integer + Debug + Copy, - F: Fn(&T, &T) -> T, -{ - for &(i, j) in v { - let rt = f(&i, &j); - let (a, b) = (min(i, j), max(i, j)); - // if both number are the same sign, check rt is in the middle - if (a < T::zero()) == (b < T::zero()) { - if (b - a).is_even() { - assert_eq!(rt - a, b - rt); - } else { - assert_eq!(rt - a, b - rt + T::one()); - } - // if both number have a different sign, - } else { - if (a + b).is_even() { - assert_eq!(rt, (a + b) / (T::one() + T::one())) - } else { - assert_eq!(rt, (a + b + T::one()) / (T::one() + T::one())) - } - } - } - bench_unchecked(b, v, f); -} - -fn bench_floor<T, F>(b: &mut Bencher, v: &[(T, T)], f: F) -where - T: Integer + Debug + Copy, - F: Fn(&T, &T) -> T, -{ - for &(i, j) in v { - let rt = f(&i, &j); - let (a, b) = (min(i, j), max(i, j)); - // if both number are the same sign, check rt is in the middle - if (a < T::zero()) == (b < T::zero()) { - if (b - a).is_even() { - assert_eq!(rt - a, b - rt); - } else { - assert_eq!(rt - a + T::one(), b - rt); - } - // if both number have a different sign, - } else { - if (a + b).is_even() { - assert_eq!(rt, (a + b) / (T::one() + T::one())) - } else { - assert_eq!(rt, (a + b - T::one()) / (T::one() + T::one())) - } - } - } - bench_unchecked(b, v, f); -} - -// --- Bench implementation ------------------------------------------------- - -macro_rules! bench_average { - ($($T:ident),*) => {$( - mod $T { - use test::Bencher; - use num_integer::{Average, Integer}; - use super::{UncheckedAverage, NaiveAverage, ModuloAverage}; - use super::{bench_ceil, bench_floor, bench_unchecked}; - - naive_average!($T); - unchecked_average!($T); - modulo_average!($T); - - const SIZE: $T = 30; - - fn overflowing() -> Vec<($T, $T)> { - (($T::max_value()-SIZE)..$T::max_value()) - .flat_map(|x| -> Vec<_> { - (($T::max_value()-100)..($T::max_value()-100+SIZE)) - .map(|y| (x, y)) - .collect() - }) - .collect() - } - - fn small() -> Vec<($T, $T)> { - (0..SIZE) - .flat_map(|x| -> Vec<_> {(0..SIZE).map(|y| (x, y)).collect()}) - .collect() - } - - fn rand() -> Vec<($T, $T)> { - small() - .into_iter() - .map(|(x, y)| (super::lcg(x), super::lcg(y))) - .collect() - } - - mod ceil { - - use super::*; - - mod small { - - use super::*; - - #[bench] - fn optimized(b: &mut Bencher) { - let v = small(); - bench_ceil(b, &v, |x: &$T, y: &$T| x.average_ceil(y)); - } - - #[bench] - fn naive(b: &mut Bencher) { - let v = small(); - bench_ceil(b, &v, |x: &$T, y: &$T| x.naive_average_ceil(y)); - } - - #[bench] - fn unchecked(b: &mut Bencher) { - let v = small(); - bench_unchecked(b, &v, |x: &$T, y: &$T| x.unchecked_average_ceil(y)); - } - - #[bench] - fn modulo(b: &mut Bencher) { - let v = small(); - bench_ceil(b, &v, |x: &$T, y: &$T| x.modulo_average_ceil(y)); - } - } - - mod overflowing { - - use super::*; - - #[bench] - fn optimized(b: &mut Bencher) { - let v = overflowing(); - bench_ceil(b, &v, |x: &$T, y: &$T| x.average_ceil(y)); - } - - #[bench] - fn naive(b: &mut Bencher) { - let v = overflowing(); - bench_ceil(b, &v, |x: &$T, y: &$T| x.naive_average_ceil(y)); - } - - #[bench] - fn unchecked(b: &mut Bencher) { - let v = overflowing(); - bench_unchecked(b, &v, |x: &$T, y: &$T| x.unchecked_average_ceil(y)); - } - - #[bench] - fn modulo(b: &mut Bencher) { - let v = overflowing(); - bench_ceil(b, &v, |x: &$T, y: &$T| x.modulo_average_ceil(y)); - } - } - - mod rand { - - use super::*; - - #[bench] - fn optimized(b: &mut Bencher) { - let v = rand(); - bench_ceil(b, &v, |x: &$T, y: &$T| x.average_ceil(y)); - } - - #[bench] - fn naive(b: &mut Bencher) { - let v = rand(); - bench_ceil(b, &v, |x: &$T, y: &$T| x.naive_average_ceil(y)); - } - - #[bench] - fn unchecked(b: &mut Bencher) { - let v = rand(); - bench_unchecked(b, &v, |x: &$T, y: &$T| x.unchecked_average_ceil(y)); - } - - #[bench] - fn modulo(b: &mut Bencher) { - let v = rand(); - bench_ceil(b, &v, |x: &$T, y: &$T| x.modulo_average_ceil(y)); - } - } - - } - - mod floor { - - use super::*; - - mod small { - - use super::*; - - #[bench] - fn optimized(b: &mut Bencher) { - let v = small(); - bench_floor(b, &v, |x: &$T, y: &$T| x.average_floor(y)); - } - - #[bench] - fn naive(b: &mut Bencher) { - let v = small(); - bench_floor(b, &v, |x: &$T, y: &$T| x.naive_average_floor(y)); - } - - #[bench] - fn unchecked(b: &mut Bencher) { - let v = small(); - bench_unchecked(b, &v, |x: &$T, y: &$T| x.unchecked_average_floor(y)); - } - - #[bench] - fn modulo(b: &mut Bencher) { - let v = small(); - bench_floor(b, &v, |x: &$T, y: &$T| x.modulo_average_floor(y)); - } - } - - mod overflowing { - - use super::*; - - #[bench] - fn optimized(b: &mut Bencher) { - let v = overflowing(); - bench_floor(b, &v, |x: &$T, y: &$T| x.average_floor(y)); - } - - #[bench] - fn naive(b: &mut Bencher) { - let v = overflowing(); - bench_floor(b, &v, |x: &$T, y: &$T| x.naive_average_floor(y)); - } - - #[bench] - fn unchecked(b: &mut Bencher) { - let v = overflowing(); - bench_unchecked(b, &v, |x: &$T, y: &$T| x.unchecked_average_floor(y)); - } - - #[bench] - fn modulo(b: &mut Bencher) { - let v = overflowing(); - bench_floor(b, &v, |x: &$T, y: &$T| x.modulo_average_floor(y)); - } - } - - mod rand { - - use super::*; - - #[bench] - fn optimized(b: &mut Bencher) { - let v = rand(); - bench_floor(b, &v, |x: &$T, y: &$T| x.average_floor(y)); - } - - #[bench] - fn naive(b: &mut Bencher) { - let v = rand(); - bench_floor(b, &v, |x: &$T, y: &$T| x.naive_average_floor(y)); - } - - #[bench] - fn unchecked(b: &mut Bencher) { - let v = rand(); - bench_unchecked(b, &v, |x: &$T, y: &$T| x.unchecked_average_floor(y)); - } - - #[bench] - fn modulo(b: &mut Bencher) { - let v = rand(); - bench_floor(b, &v, |x: &$T, y: &$T| x.modulo_average_floor(y)); - } - } - - } - - } - )*} -} - -bench_average!(i8, i16, i32, i64, i128, isize); -bench_average!(u8, u16, u32, u64, u128, usize); |