arrow/benches/sort_kernel.rs - arrow-experimental-rs-parquet2 - Git at Google

 // Licensed to the Apache Software Foundation (ASF) under one
 // or more contributor license agreements.  See the NOTICE file
 // distributed with this work for additional information
 // regarding copyright ownership.  The ASF licenses this file
 // to you under the Apache License, Version 2.0 (the
 // "License"); you may not use this file except in compliance
 // with the License.  You may obtain a copy of the License at
 //
 //   http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing,
 // software distributed under the License is distributed on an
 // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 // KIND, either express or implied.  See the License for the
 // specific language governing permissions and limitations
 // under the License.

 #[macro_use]
 extern crate criterion;
 use criterion::Criterion;

 use std::sync::Arc;

 extern crate arrow;

 use arrow::compute::kernels::sort::{lexsort, SortColumn};
 use arrow::util::bench_util::*;
 use arrow::{array::*, datatypes::Float32Type};

 fn create_array(size: usize, with_nulls: bool) -> ArrayRef {
     let null_density = if with_nulls { 0.5 } else { 0.0 };
     let array = create_primitive_array::<Float32Type>(size, null_density);
     Arc::new(array)
 }

 fn bench_sort(array_a: &ArrayRef, array_b: &ArrayRef, limit: Option<usize>) {
     let columns = vec![
         SortColumn {
             values: array_a.clone(),
             options: None,
         },
         SortColumn {
             values: array_b.clone(),
             options: None,
         },
     ];

     criterion::black_box(lexsort(&columns, limit).unwrap());
 }

 fn add_benchmark(c: &mut Criterion) {
     let arr_a = create_array(2u64.pow(10) as usize, false);
     let arr_b = create_array(2u64.pow(10) as usize, false);

     c.bench_function("sort 2^10", |b| b.iter(|| bench_sort(&arr_a, &arr_b, None)));

     let arr_a = create_array(2u64.pow(12) as usize, false);
     let arr_b = create_array(2u64.pow(12) as usize, false);

     c.bench_function("sort 2^12", |b| b.iter(|| bench_sort(&arr_a, &arr_b, None)));

     let arr_a = create_array(2u64.pow(10) as usize, true);
     let arr_b = create_array(2u64.pow(10) as usize, true);

     c.bench_function("sort nulls 2^10", |b| {
         b.iter(|| bench_sort(&arr_a, &arr_b, None))
     });

     let arr_a = create_array(2u64.pow(12) as usize, true);
     let arr_b = create_array(2u64.pow(12) as usize, true);

     c.bench_function("sort nulls 2^12", |b| {
         b.iter(|| bench_sort(&arr_a, &arr_b, None))
     });

     // with limit
     {
         let arr_a = create_array(2u64.pow(12) as usize, false);
         let arr_b = create_array(2u64.pow(12) as usize, false);
         c.bench_function("sort 2^12 limit 10", |b| {
             b.iter(|| bench_sort(&arr_a, &arr_b, Some(10)))
         });

         let arr_a = create_array(2u64.pow(12) as usize, false);
         let arr_b = create_array(2u64.pow(12) as usize, false);
         c.bench_function("sort 2^12 limit 100", |b| {
             b.iter(|| bench_sort(&arr_a, &arr_b, Some(100)))
         });

         let arr_a = create_array(2u64.pow(12) as usize, false);
         let arr_b = create_array(2u64.pow(12) as usize, false);
         c.bench_function("sort 2^12 limit 1000", |b| {
             b.iter(|| bench_sort(&arr_a, &arr_b, Some(1000)))
         });

         let arr_a = create_array(2u64.pow(12) as usize, false);
         let arr_b = create_array(2u64.pow(12) as usize, false);
         c.bench_function("sort 2^12 limit 2^12", |b| {
             b.iter(|| bench_sort(&arr_a, &arr_b, Some(2u64.pow(12) as usize)))
         });

         let arr_a = create_array(2u64.pow(12) as usize, true);
         let arr_b = create_array(2u64.pow(12) as usize, true);

         c.bench_function("sort nulls 2^12 limit 10", |b| {
             b.iter(|| bench_sort(&arr_a, &arr_b, Some(10)))
         });
         c.bench_function("sort nulls 2^12 limit 100", |b| {
             b.iter(|| bench_sort(&arr_a, &arr_b, Some(100)))
         });
         c.bench_function("sort nulls 2^12 limit 1000", |b| {
             b.iter(|| bench_sort(&arr_a, &arr_b, Some(1000)))
         });
         c.bench_function("sort nulls 2^12 limit 2^12", |b| {
             b.iter(|| bench_sort(&arr_a, &arr_b, Some(2u64.pow(12) as usize)))
         });
     }
 }

 criterion_group!(benches, add_benchmark);
 criterion_main!(benches);
	// Licensed to the Apache Software Foundation (ASF) under one
	// or more contributor license agreements. See the NOTICE file
	// distributed with this work for additional information
	// regarding copyright ownership. The ASF licenses this file
	// to you under the Apache License, Version 2.0 (the
	// "License"); you may not use this file except in compliance
	// with the License. You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing,
	// software distributed under the License is distributed on an
	// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	// KIND, either express or implied. See the License for the
	// specific language governing permissions and limitations
	// under the License.

	#[macro_use]
	extern crate criterion;
	use criterion::Criterion;

	use std::sync::Arc;

	extern crate arrow;

	use arrow::compute::kernels::sort::{lexsort, SortColumn};
	use arrow::util::bench_util::*;
	use arrow::{array::*, datatypes::Float32Type};

	fn create_array(size: usize, with_nulls: bool) -> ArrayRef {
	let null_density = if with_nulls { 0.5 } else { 0.0 };
	let array = create_primitive_array::<Float32Type>(size, null_density);
	Arc::new(array)
	}

	fn bench_sort(array_a: &ArrayRef, array_b: &ArrayRef, limit: Option<usize>) {
	let columns = vec![
	SortColumn {
	values: array_a.clone(),
	options: None,
	},
	SortColumn {
	values: array_b.clone(),
	options: None,
	},
	];

	criterion::black_box(lexsort(&columns, limit).unwrap());
	}

	fn add_benchmark(c: &mut Criterion) {
	let arr_a = create_array(2u64.pow(10) as usize, false);
	let arr_b = create_array(2u64.pow(10) as usize, false);

	c.bench_function("sort 2^10", \|b\| b.iter(\|\| bench_sort(&arr_a, &arr_b, None)));

	let arr_a = create_array(2u64.pow(12) as usize, false);
	let arr_b = create_array(2u64.pow(12) as usize, false);

	c.bench_function("sort 2^12", \|b\| b.iter(\|\| bench_sort(&arr_a, &arr_b, None)));

	let arr_a = create_array(2u64.pow(10) as usize, true);
	let arr_b = create_array(2u64.pow(10) as usize, true);

	c.bench_function("sort nulls 2^10", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, None))
	});

	let arr_a = create_array(2u64.pow(12) as usize, true);
	let arr_b = create_array(2u64.pow(12) as usize, true);

	c.bench_function("sort nulls 2^12", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, None))
	});

	// with limit
	{
	let arr_a = create_array(2u64.pow(12) as usize, false);
	let arr_b = create_array(2u64.pow(12) as usize, false);
	c.bench_function("sort 2^12 limit 10", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, Some(10)))
	});

	let arr_a = create_array(2u64.pow(12) as usize, false);
	let arr_b = create_array(2u64.pow(12) as usize, false);
	c.bench_function("sort 2^12 limit 100", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, Some(100)))
	});

	let arr_a = create_array(2u64.pow(12) as usize, false);
	let arr_b = create_array(2u64.pow(12) as usize, false);
	c.bench_function("sort 2^12 limit 1000", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, Some(1000)))
	});

	let arr_a = create_array(2u64.pow(12) as usize, false);
	let arr_b = create_array(2u64.pow(12) as usize, false);
	c.bench_function("sort 2^12 limit 2^12", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, Some(2u64.pow(12) as usize)))
	});

	let arr_a = create_array(2u64.pow(12) as usize, true);
	let arr_b = create_array(2u64.pow(12) as usize, true);

	c.bench_function("sort nulls 2^12 limit 10", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, Some(10)))
	});
	c.bench_function("sort nulls 2^12 limit 100", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, Some(100)))
	});
	c.bench_function("sort nulls 2^12 limit 1000", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, Some(1000)))
	});
	c.bench_function("sort nulls 2^12 limit 2^12", \|b\| {
	b.iter(\|\| bench_sort(&arr_a, &arr_b, Some(2u64.pow(12) as usize)))
	});
	}
	}

	criterion_group!(benches, add_benchmark);
	criterion_main!(benches);