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Spracherkennung für: .rs vermutete Sprache: Unknown {[0] [0] [0]} [Methode: Schwerpunktbildung, einfache Gewichte, sechs Dimensionen] // Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or // http://www.apache.org/licenses/LICENSE-2.0> or the MIT license // <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your // option. This file may not be copied, modified, or distributed // except according to those terms. #![feature(test)] #![feature(hint_assert_unchecked)] extern crate bit_vec; extern crate rand; extern crate rand_xorshift; extern crate test; use bit_vec::BitVec; use rand::{Rng, RngCore, SeedableRng}; use rand_xorshift::XorShiftRng; use test::{black_box, Bencher}; const HUGE_BENCH_BITS: usize = 1 << 20; const BENCH_BITS: usize = 1 << 14; const U32_BITS: usize = 32; fn small_rng() -> XorShiftRng { XorShiftRng::from_entropy() } #[bench] fn bench_usize_small(b: &mut Bencher) { let mut r = small_rng(); let mut bit_vec = 0_usize; b.iter(|| { for _ in 0..100 { bit_vec |= 1 << ((r.next_u32() as usize) % U32_BITS); } black_box(&bit_vec); }); } #[bench] fn bench_bit_set_big_fixed(b: &mut Bencher) { let mut r = small_rng(); let mut bit_vec = BitVec::from_elem(BENCH_BITS, false); b.iter(|| { for _ in 0..100 { bit_vec.set((r.next_u32() as usize) % BENCH_BITS, true); } black_box(&bit_vec); }); } #[bench] fn bench_bit_set_big_variable(b: &mut Bencher) { let mut r = small_rng(); let mut bit_vec = BitVec::from_elem(BENCH_BITS, false); b.iter(|| { for _ in 0..100 { bit_vec.set((r.next_u32() as usize) % BENCH_BITS, r.gen()); } black_box(&bit_vec); }); } #[bench] fn bench_bit_set_small(b: &mut Bencher) { let mut r = small_rng(); let mut bit_vec = BitVec::from_elem(U32_BITS, false); b.iter(|| { for _ in 0..100 { bit_vec.set((r.next_u32() as usize) % U32_BITS, true); } black_box(&bit_vec); }); } #[bench] fn bench_bit_get_checked_small(b: &mut Bencher) { let mut r = small_rng(); let size = 200; let mut bit_vec = BitVec::from_elem(size, false); for _ in 0..20 { bit_vec.set((r.next_u32() as usize) % size, true); } let bit_vec = black_box(bit_vec); b.iter(|| { for _ in 0..100 { black_box(bit_vec.get((r.next_u32() as usize) % size)); } }); } #[bench] fn bench_bit_get_unchecked_small(b: &mut Bencher) { let mut r = small_rng(); let size = 200; let mut bit_vec = BitVec::from_elem(size, false); for _ in 0..20 { bit_vec.set((r.next_u32() as usize) % size, true); } let bit_vec = black_box(bit_vec); b.iter(|| { for _ in 0..100 { unsafe { black_box(bit_vec.get_unchecked((r.next_u32() as usize) % size)); } } }); } #[bench] fn bench_bit_get_unchecked_small_assume(b: &mut Bencher) { let mut r = small_rng(); let size = 200; let mut bit_vec = BitVec::from_elem(size, false); for _ in 0..20 { bit_vec.set((r.next_u32() as usize) % size, true); } let bit_vec = black_box(bit_vec); b.iter(|| { for _ in 0..100 { unsafe { let idx = (r.next_u32() as usize) % size; ::std::hint::assert_unchecked(!(idx >= bit_vec.len())); black_box(bit_vec.get(idx)); } } }); } #[bench] fn bench_bit_vec_big_or(b: &mut Bencher) { let mut b1 = BitVec::from_elem(BENCH_BITS, false); let b2 = BitVec::from_elem(BENCH_BITS, false); b.iter(|| b1.or(&b2)) } #[bench] fn bench_bit_vec_big_xnor(b: &mut Bencher) { let mut b1 = BitVec::from_elem(BENCH_BITS, false); let b2 = BitVec::from_elem(BENCH_BITS, false); b.iter(|| b1.xnor(&b2)) } #[bench] fn bench_bit_vec_big_negate_xor(b: &mut Bencher) { let mut b1 = BitVec::from_elem(BENCH_BITS, false); let b2 = BitVec::from_elem(BENCH_BITS, false); b.iter(|| { let res = b1.xor(&b2); b1.negate(); res }) } #[bench] fn bench_bit_vec_huge_xnor(b: &mut Bencher) { let mut b1 = BitVec::from_elem(HUGE_BENCH_BITS, false); let b2 = BitVec::from_elem(HUGE_BENCH_BITS, false); b.iter(|| b1.xnor(&b2)) } #[bench] fn bench_bit_vec_huge_negate_xor(b: &mut Bencher) { let mut b1 = BitVec::from_elem(HUGE_BENCH_BITS, false); let b2 = BitVec::from_elem(HUGE_BENCH_BITS, false); b.iter(|| { let res = b1.xor(&b2); b1.negate(); res }) } #[bench] fn bench_bit_vec_small_iter(b: &mut Bencher) { let bit_vec = BitVec::from_elem(U32_BITS, false); b.iter(|| { let mut sum = 0; for _ in 0..10 { for pres in &bit_vec { sum += pres as usize; } } sum }) } #[bench] fn bench_bit_vec_big_iter(b: &mut Bencher) { let bit_vec = BitVec::from_elem(BENCH_BITS, false); b.iter(|| { let mut sum = 0; for pres in &bit_vec { sum += pres as usize; } sum }) } #[bench] fn bench_from_elem(b: &mut Bencher) { let cap = black_box(BENCH_BITS); let bit = black_box(true); b.iter(|| { // create a BitVec and popcount it BitVec::from_elem(cap, bit) .blocks() .fold(0, |acc, b| acc + b.count_ones()) }); b.bytes = cap as u64 / 8; } #[bench] fn bench_erathostenes(b: &mut test::Bencher) { let mut primes = vec![]; b.iter(|| { primes.clear(); let mut sieve = BitVec::from_elem(1 << 16, true); black_box(&mut sieve); let mut i = 2; while i < sieve.len() { if sieve[i] { primes.push(i); } let mut j = i; while j < sieve.len() { sieve.set(j, false); j += i; } i += 1; } black_box(&mut sieve); }); } #[bench] fn bench_erathostenes_set_all(b: &mut test::Bencher) { let mut primes = vec![]; let mut sieve = BitVec::from_elem(1 << 16, true); b.iter(|| { primes.clear(); black_box(&mut sieve); sieve.set_all(); black_box(&mut sieve); let mut i = 2; while i < sieve.len() { if sieve[i] { primes.push(i); } let mut j = i; while j < sieve.len() { sieve.set(j, false); j += i; } i += 1; } black_box(&mut sieve); }); } [ Dauer der Verarbeitung: 0.48 Sekunden ] |
2026-04-02