use bugu::CuckooFilter; use std::collections::hash_map::DefaultHasher; // Modelled after // https://github.com/efficient/cuckoofilter/blob/master/example/test.cc // to make test setup and results comparable. #[test] fn false_positive_rate() { let total_items = 1_000_000; let mut filter = CuckooFilter::::with_capacity(total_items); let mut num_inserted: u64 = 0; // We might not be able to get all items in, but still there should be enough // so we can just use what has fit in and continue with the test. for i in 0..total_items { match filter.add(&i) { Ok(_) => num_inserted += 1, Err(_) => break, } } // The range 0..num_inserted are all known to be in the filter. // The filter shouldn't return false negatives, and therefore they should all be contained. for i in 0..num_inserted { assert!(filter.contains(&i)); } // The range total_items..(2 * total_items) are all known *not* to be in the filter. // Every element for which the filter claims that it is contained is therefore a false positive. let mut false_queries: u64 = 0; for i in total_items..(2 * total_items) { if filter.contains(&i) { false_queries += 1; } } let false_positive_rate = (false_queries as f64) / (total_items as f64); println!("elements inserted: {}", num_inserted); println!( "memory usage: {:.2}KiB", (filter.memory_usage() as f64) / 1024.0 ); println!("false positive rate: {}%", 100.0 * false_positive_rate); // ratio should be around 0.024, round up to 0.03 to accomodate for random fluctuation assert!(false_positive_rate < 0.03); }