use criterion::{criterion_group, criterion_main, Criterion};
use arrow2::compute::arity_assign::{binary, unary};
use arrow2::{
compute::arithmetics::basic::{mul, mul_scalar},
util::bench_util::*,
};
fn add_benchmark(c: &mut Criterion) {
(10..=20).step_by(2).for_each(|log2_size| {
let size = 2usize.pow(log2_size);
let mut arr_a = create_primitive_array::<f32>(size, 0.2);
c.bench_function(&format!("apply_mul 2^{log2_size}"), |b| {
b.iter(|| {
unary(criterion::black_box(&mut arr_a), |x| x * 1.01);
assert!(!arr_a.value(10).is_nan());
})
});
let arr_a = create_primitive_array::<f32>(size, 0.2);
c.bench_function(&format!("mul 2^{log2_size}"), |b| {
b.iter(|| {
let a = mul_scalar(criterion::black_box(&arr_a), &1.01f32);
assert!(!a.value(10).is_nan());
})
});
let mut arr_a = create_primitive_array::<f32>(size, 0.2);
let mut arr_b = create_primitive_array_with_seed::<f32>(size, 0.2, 10);
unary(&mut arr_b, |x| 1.01 + x / 20.0);
c.bench_function(&format!("apply_mul null 2^{log2_size}"), |b| {
b.iter(|| {
binary(criterion::black_box(&mut arr_a), &arr_b, |x, y| x * y);
assert!(!arr_a.value(10).is_nan());
})
});
let arr_a = create_primitive_array::<f32>(size, 0.2);
c.bench_function(&format!("mul null 2^{log2_size}"), |b| {
b.iter(|| {
let a = mul(criterion::black_box(&arr_a), &arr_b);
assert!(!a.value(10).is_nan());
})
});
});
}
criterion_group!(benches, add_benchmark);
criterion_main!(benches);