//! Benchmark the overhead that the synchronization of `OnceCell::get` causes. //! We do some other operations that write to memory to get an imprecise but somewhat realistic //! measurement. use once_cell_serde::sync::OnceCell; use std::sync::atomic::{AtomicUsize, Ordering}; const N_THREADS: usize = 16; const N_ROUNDS: usize = 1_000_000; static CELL: OnceCell = OnceCell::new(); static OTHER: AtomicUsize = AtomicUsize::new(0); fn main() { let start = std::time::Instant::now(); let threads = (0..N_THREADS).map(|i| std::thread::spawn(move || thread_main(i))).collect::>(); for thread in threads { thread.join().unwrap(); } println!("{:?}", start.elapsed()); println!("{:?}", OTHER.load(Ordering::Relaxed)); } #[inline(never)] fn thread_main(i: usize) { // The operations we do here don't really matter, as long as we do multiple writes, and // everything is messy enough to prevent the compiler from optimizing the loop away. let mut data = [i; 128]; let mut accum = 0usize; for _ in 0..N_ROUNDS { let _value = CELL.get_or_init(|| i + 1); let k = OTHER.fetch_add(data[accum & 0x7F] as usize, Ordering::Relaxed); for j in data.iter_mut() { *j = (*j).wrapping_add(accum); accum = accum.wrapping_add(k); } } }