sgx_tstd/hashbrown/benches/bench.rs - incubator-teaclave-sgx-sdk - Git at Google

 // This benchmark suite contains some benchmarks along a set of dimensions:
 //   Hasher: std default (SipHash) and crate default (AHash).
 //   Int key distribution: low bit heavy, top bit heavy, and random.
 //   Task: basic functionality: insert, insert_erase, lookup, lookup_fail, iter
 #![feature(test)]

 extern crate test;

 use test::{black_box, Bencher};

 use hashbrown::hash_map::DefaultHashBuilder;
 use hashbrown::{HashMap, HashSet};
 use std::{
     collections::hash_map::RandomState,
     sync::atomic::{self, AtomicUsize},
 };

 const SIZE: usize = 1000;

 // The default hashmap when using this crate directly.
 type AHashMap<K, V> = HashMap<K, V, DefaultHashBuilder>;
 // This uses the hashmap from this crate with the default hasher of the stdlib.
 type StdHashMap<K, V> = HashMap<K, V, RandomState>;

 // A random key iterator.
 #[derive(Clone, Copy)]
 struct RandomKeys {
     state: usize,
 }

 impl RandomKeys {
     fn new() -> Self {
         RandomKeys { state: 0 }
     }
 }

 impl Iterator for RandomKeys {
     type Item = usize;
     fn next(&mut self) -> Option<usize> {
         // Add 1 then multiply by some 32 bit prime.
         self.state = self.state.wrapping_add(1).wrapping_mul(3_787_392_781);
         Some(self.state)
     }
 }

 // Just an arbitrary side effect to make the maps not shortcircuit to the non-dropping path
 // when dropping maps/entries (most real world usages likely have drop in the key or value)
 lazy_static::lazy_static! {
     static ref SIDE_EFFECT: AtomicUsize = AtomicUsize::new(0);
 }

 #[derive(Clone)]
 struct DropType(usize);
 impl Drop for DropType {
     fn drop(&mut self) {
         SIDE_EFFECT.fetch_add(self.0, atomic::Ordering::SeqCst);
     }
 }

 macro_rules! bench_suite {
     ($bench_macro:ident, $bench_ahash_serial:ident, $bench_std_serial:ident,
      $bench_ahash_highbits:ident, $bench_std_highbits:ident,
      $bench_ahash_random:ident, $bench_std_random:ident) => {
         $bench_macro!($bench_ahash_serial, AHashMap, 0..);
         $bench_macro!($bench_std_serial, StdHashMap, 0..);
         $bench_macro!(
             $bench_ahash_highbits,
             AHashMap,
             (0..).map(usize::swap_bytes)
         );
         $bench_macro!(
             $bench_std_highbits,
             StdHashMap,
             (0..).map(usize::swap_bytes)
         );
         $bench_macro!($bench_ahash_random, AHashMap, RandomKeys::new());
         $bench_macro!($bench_std_random, StdHashMap, RandomKeys::new());
     };
 }

 macro_rules! bench_insert {
     ($name:ident, $maptype:ident, $keydist:expr) => {
         #[bench]
         fn $name(b: &mut Bencher) {
             let mut m = $maptype::with_capacity_and_hasher(SIZE, Default::default());
             b.iter(|| {
                 m.clear();
                 for i in ($keydist).take(SIZE) {
                     m.insert(i, (DropType(i), [i; 20]));
                 }
                 black_box(&mut m);
             });
             eprintln!("{}", SIDE_EFFECT.load(atomic::Ordering::SeqCst));
         }
     };
 }

 bench_suite!(
     bench_insert,
     insert_ahash_serial,
     insert_std_serial,
     insert_ahash_highbits,
     insert_std_highbits,
     insert_ahash_random,
     insert_std_random
 );

 macro_rules! bench_grow_insert {
     ($name:ident, $maptype:ident, $keydist:expr) => {
         #[bench]
         fn $name(b: &mut Bencher) {
             b.iter(|| {
                 let mut m = $maptype::default();
                 for i in ($keydist).take(SIZE) {
                     m.insert(i, DropType(i));
                 }
                 black_box(&mut m);
             })
         }
     };
 }

 bench_suite!(
     bench_grow_insert,
     grow_insert_ahash_serial,
     grow_insert_std_serial,
     grow_insert_ahash_highbits,
     grow_insert_std_highbits,
     grow_insert_ahash_random,
     grow_insert_std_random
 );

 macro_rules! bench_insert_erase {
     ($name:ident, $maptype:ident, $keydist:expr) => {
         #[bench]
         fn $name(b: &mut Bencher) {
             let mut base = $maptype::default();
             for i in ($keydist).take(SIZE) {
                 base.insert(i, DropType(i));
             }
             let skip = $keydist.skip(SIZE);
             b.iter(|| {
                 let mut m = base.clone();
                 let mut add_iter = skip.clone();
                 let mut remove_iter = $keydist;
                 // While keeping the size constant,
                 // replace the first keydist with the second.
                 for (add, remove) in (&mut add_iter).zip(&mut remove_iter).take(SIZE) {
                     m.insert(add, DropType(add));
                     black_box(m.remove(&remove));
                 }
                 black_box(m);
             });
             eprintln!("{}", SIDE_EFFECT.load(atomic::Ordering::SeqCst));
         }
     };
 }

 bench_suite!(
     bench_insert_erase,
     insert_erase_ahash_serial,
     insert_erase_std_serial,
     insert_erase_ahash_highbits,
     insert_erase_std_highbits,
     insert_erase_ahash_random,
     insert_erase_std_random
 );

 macro_rules! bench_lookup {
     ($name:ident, $maptype:ident, $keydist:expr) => {
         #[bench]
         fn $name(b: &mut Bencher) {
             let mut m = $maptype::default();
             for i in $keydist.take(SIZE) {
                 m.insert(i, DropType(i));
             }

             b.iter(|| {
                 for i in $keydist.take(SIZE) {
                     black_box(m.get(&i));
                 }
             });
             eprintln!("{}", SIDE_EFFECT.load(atomic::Ordering::SeqCst));
         }
     };
 }

 bench_suite!(
     bench_lookup,
     lookup_ahash_serial,
     lookup_std_serial,
     lookup_ahash_highbits,
     lookup_std_highbits,
     lookup_ahash_random,
     lookup_std_random
 );

 macro_rules! bench_lookup_fail {
     ($name:ident, $maptype:ident, $keydist:expr) => {
         #[bench]
         fn $name(b: &mut Bencher) {
             let mut m = $maptype::default();
             let mut iter = $keydist;
             for i in (&mut iter).take(SIZE) {
                 m.insert(i, DropType(i));
             }

             b.iter(|| {
                 for i in (&mut iter).take(SIZE) {
                     black_box(m.get(&i));
                 }
             })
         }
     };
 }

 bench_suite!(
     bench_lookup_fail,
     lookup_fail_ahash_serial,
     lookup_fail_std_serial,
     lookup_fail_ahash_highbits,
     lookup_fail_std_highbits,
     lookup_fail_ahash_random,
     lookup_fail_std_random
 );

 macro_rules! bench_iter {
     ($name:ident, $maptype:ident, $keydist:expr) => {
         #[bench]
         fn $name(b: &mut Bencher) {
             let mut m = $maptype::default();
             for i in ($keydist).take(SIZE) {
                 m.insert(i, DropType(i));
             }

             b.iter(|| {
                 for i in &m {
                     black_box(i);
                 }
             })
         }
     };
 }

 bench_suite!(
     bench_iter,
     iter_ahash_serial,
     iter_std_serial,
     iter_ahash_highbits,
     iter_std_highbits,
     iter_ahash_random,
     iter_std_random
 );

 #[bench]
 fn clone_small(b: &mut Bencher) {
     let mut m = HashMap::new();
     for i in 0..10 {
         m.insert(i, DropType(i));
     }

     b.iter(|| {
         black_box(m.clone());
     })
 }

 #[bench]
 fn clone_from_small(b: &mut Bencher) {
     let mut m = HashMap::new();
     let mut m2 = HashMap::new();
     for i in 0..10 {
         m.insert(i, DropType(i));
     }

     b.iter(|| {
         m2.clone_from(&m);
         black_box(&mut m2);
     })
 }

 #[bench]
 fn clone_large(b: &mut Bencher) {
     let mut m = HashMap::new();
     for i in 0..1000 {
         m.insert(i, DropType(i));
     }

     b.iter(|| {
         black_box(m.clone());
     })
 }

 #[bench]
 fn clone_from_large(b: &mut Bencher) {
     let mut m = HashMap::new();
     let mut m2 = HashMap::new();
     for i in 0..1000 {
         m.insert(i, DropType(i));
     }

     b.iter(|| {
         m2.clone_from(&m);
         black_box(&mut m2);
     })
 }

 #[bench]
 fn rehash_in_place(b: &mut Bencher) {
     b.iter(|| {
         let mut set = HashSet::new();

         // Each loop triggers one rehash
         for _ in 0..10 {
             for i in 0..224 {
                 set.insert(i);
             }

             assert_eq!(
                 set.capacity(),
                 224,
                 "The set must be at or close to capacity to trigger a re hashing"
             );

             for i in 100..1400 {
                 set.remove(&(i - 100));
                 set.insert(i);
             }
             set.clear();
         }
     });
 }
	// This benchmark suite contains some benchmarks along a set of dimensions:
	// Hasher: std default (SipHash) and crate default (AHash).
	// Int key distribution: low bit heavy, top bit heavy, and random.
	// Task: basic functionality: insert, insert_erase, lookup, lookup_fail, iter
	#![feature(test)]

	extern crate test;

	use test::{black_box, Bencher};

	use hashbrown::hash_map::DefaultHashBuilder;
	use hashbrown::{HashMap, HashSet};
	use std::{
	collections::hash_map::RandomState,
	sync::atomic::{self, AtomicUsize},
	};

	const SIZE: usize = 1000;

	// The default hashmap when using this crate directly.
	type AHashMap<K, V> = HashMap<K, V, DefaultHashBuilder>;
	// This uses the hashmap from this crate with the default hasher of the stdlib.
	type StdHashMap<K, V> = HashMap<K, V, RandomState>;

	// A random key iterator.
	#[derive(Clone, Copy)]
	struct RandomKeys {
	state: usize,
	}

	impl RandomKeys {
	fn new() -> Self {
	RandomKeys { state: 0 }
	}
	}

	impl Iterator for RandomKeys {
	type Item = usize;
	fn next(&mut self) -> Option<usize> {
	// Add 1 then multiply by some 32 bit prime.
	self.state = self.state.wrapping_add(1).wrapping_mul(3_787_392_781);
	Some(self.state)
	}
	}

	// Just an arbitrary side effect to make the maps not shortcircuit to the non-dropping path
	// when dropping maps/entries (most real world usages likely have drop in the key or value)
	lazy_static::lazy_static! {
	static ref SIDE_EFFECT: AtomicUsize = AtomicUsize::new(0);
	}

	#[derive(Clone)]
	struct DropType(usize);
	impl Drop for DropType {
	fn drop(&mut self) {
	SIDE_EFFECT.fetch_add(self.0, atomic::Ordering::SeqCst);
	}
	}

	macro_rules! bench_suite {
	($bench_macro:ident, $bench_ahash_serial:ident, $bench_std_serial:ident,
	$bench_ahash_highbits:ident, $bench_std_highbits:ident,
	$bench_ahash_random:ident, $bench_std_random:ident) => {
	$bench_macro!($bench_ahash_serial, AHashMap, 0..);
	$bench_macro!($bench_std_serial, StdHashMap, 0..);
	$bench_macro!(
	$bench_ahash_highbits,
	AHashMap,
	(0..).map(usize::swap_bytes)
	);
	$bench_macro!(
	$bench_std_highbits,
	StdHashMap,
	(0..).map(usize::swap_bytes)
	);
	$bench_macro!($bench_ahash_random, AHashMap, RandomKeys::new());
	$bench_macro!($bench_std_random, StdHashMap, RandomKeys::new());
	};
	}

	macro_rules! bench_insert {
	($name:ident, $maptype:ident, $keydist:expr) => {
	#[bench]
	fn $name(b: &mut Bencher) {
	let mut m = $maptype::with_capacity_and_hasher(SIZE, Default::default());
	b.iter(\|\| {
	m.clear();
	for i in ($keydist).take(SIZE) {
	m.insert(i, (DropType(i), [i; 20]));
	}
	black_box(&mut m);
	});
	eprintln!("{}", SIDE_EFFECT.load(atomic::Ordering::SeqCst));
	}
	};
	}

	bench_suite!(
	bench_insert,
	insert_ahash_serial,
	insert_std_serial,
	insert_ahash_highbits,
	insert_std_highbits,
	insert_ahash_random,
	insert_std_random
	);

	macro_rules! bench_grow_insert {
	($name:ident, $maptype:ident, $keydist:expr) => {
	#[bench]
	fn $name(b: &mut Bencher) {
	b.iter(\|\| {
	let mut m = $maptype::default();
	for i in ($keydist).take(SIZE) {
	m.insert(i, DropType(i));
	}
	black_box(&mut m);
	})
	}
	};
	}

	bench_suite!(
	bench_grow_insert,
	grow_insert_ahash_serial,
	grow_insert_std_serial,
	grow_insert_ahash_highbits,
	grow_insert_std_highbits,
	grow_insert_ahash_random,
	grow_insert_std_random
	);

	macro_rules! bench_insert_erase {
	($name:ident, $maptype:ident, $keydist:expr) => {
	#[bench]
	fn $name(b: &mut Bencher) {
	let mut base = $maptype::default();
	for i in ($keydist).take(SIZE) {
	base.insert(i, DropType(i));
	}
	let skip = $keydist.skip(SIZE);
	b.iter(\|\| {
	let mut m = base.clone();
	let mut add_iter = skip.clone();
	let mut remove_iter = $keydist;
	// While keeping the size constant,
	// replace the first keydist with the second.
	for (add, remove) in (&mut add_iter).zip(&mut remove_iter).take(SIZE) {
	m.insert(add, DropType(add));
	black_box(m.remove(&remove));
	}
	black_box(m);
	});
	eprintln!("{}", SIDE_EFFECT.load(atomic::Ordering::SeqCst));
	}
	};
	}

	bench_suite!(
	bench_insert_erase,
	insert_erase_ahash_serial,
	insert_erase_std_serial,
	insert_erase_ahash_highbits,
	insert_erase_std_highbits,
	insert_erase_ahash_random,
	insert_erase_std_random
	);

	macro_rules! bench_lookup {
	($name:ident, $maptype:ident, $keydist:expr) => {
	#[bench]
	fn $name(b: &mut Bencher) {
	let mut m = $maptype::default();
	for i in $keydist.take(SIZE) {
	m.insert(i, DropType(i));
	}

	b.iter(\|\| {
	for i in $keydist.take(SIZE) {
	black_box(m.get(&i));
	}
	});
	eprintln!("{}", SIDE_EFFECT.load(atomic::Ordering::SeqCst));
	}
	};
	}

	bench_suite!(
	bench_lookup,
	lookup_ahash_serial,
	lookup_std_serial,
	lookup_ahash_highbits,
	lookup_std_highbits,
	lookup_ahash_random,
	lookup_std_random
	);

	macro_rules! bench_lookup_fail {
	($name:ident, $maptype:ident, $keydist:expr) => {
	#[bench]
	fn $name(b: &mut Bencher) {
	let mut m = $maptype::default();
	let mut iter = $keydist;
	for i in (&mut iter).take(SIZE) {
	m.insert(i, DropType(i));
	}

	b.iter(\|\| {
	for i in (&mut iter).take(SIZE) {
	black_box(m.get(&i));
	}
	})
	}
	};
	}

	bench_suite!(
	bench_lookup_fail,
	lookup_fail_ahash_serial,
	lookup_fail_std_serial,
	lookup_fail_ahash_highbits,
	lookup_fail_std_highbits,
	lookup_fail_ahash_random,
	lookup_fail_std_random
	);

	macro_rules! bench_iter {
	($name:ident, $maptype:ident, $keydist:expr) => {
	#[bench]
	fn $name(b: &mut Bencher) {
	let mut m = $maptype::default();
	for i in ($keydist).take(SIZE) {
	m.insert(i, DropType(i));
	}

	b.iter(\|\| {
	for i in &m {
	black_box(i);
	}
	})
	}
	};
	}

	bench_suite!(
	bench_iter,
	iter_ahash_serial,
	iter_std_serial,
	iter_ahash_highbits,
	iter_std_highbits,
	iter_ahash_random,
	iter_std_random
	);

	#[bench]
	fn clone_small(b: &mut Bencher) {
	let mut m = HashMap::new();
	for i in 0..10 {
	m.insert(i, DropType(i));
	}

	b.iter(\|\| {
	black_box(m.clone());
	})
	}

	#[bench]
	fn clone_from_small(b: &mut Bencher) {
	let mut m = HashMap::new();
	let mut m2 = HashMap::new();
	for i in 0..10 {
	m.insert(i, DropType(i));
	}

	b.iter(\|\| {
	m2.clone_from(&m);
	black_box(&mut m2);
	})
	}

	#[bench]
	fn clone_large(b: &mut Bencher) {
	let mut m = HashMap::new();
	for i in 0..1000 {
	m.insert(i, DropType(i));
	}

	b.iter(\|\| {
	black_box(m.clone());
	})
	}

	#[bench]
	fn clone_from_large(b: &mut Bencher) {
	let mut m = HashMap::new();
	let mut m2 = HashMap::new();
	for i in 0..1000 {
	m.insert(i, DropType(i));
	}

	b.iter(\|\| {
	m2.clone_from(&m);
	black_box(&mut m2);
	})
	}

	#[bench]
	fn rehash_in_place(b: &mut Bencher) {
	b.iter(\|\| {
	let mut set = HashSet::new();

	// Each loop triggers one rehash
	for _ in 0..10 {
	for i in 0..224 {
	set.insert(i);
	}

	assert_eq!(
	set.capacity(),
	224,
	"The set must be at or close to capacity to trigger a re hashing"
	);

	for i in 100..1400 {
	set.remove(&(i - 100));
	set.insert(i);
	}
	set.clear();
	}
	});
	}