use rocksdb::{Options, RocksDB, Writable, Direction}; use std; fn cba(input: &Box<[u8]>) -> Box<[u8]> { input.iter().cloned().collect::>().into_boxed_slice() } #[test] pub fn test_iterator() { let path = "_rust_rocksdb_iteratortest"; { let k1:Box<[u8]> = b"k1".to_vec().into_boxed_slice(); let k2:Box<[u8]> = b"k2".to_vec().into_boxed_slice(); let k3:Box<[u8]> = b"k3".to_vec().into_boxed_slice(); let k4:Box<[u8]> = b"k4".to_vec().into_boxed_slice(); let v1:Box<[u8]> = b"v1111".to_vec().into_boxed_slice(); let v2:Box<[u8]> = b"v2222".to_vec().into_boxed_slice(); let v3:Box<[u8]> = b"v3333".to_vec().into_boxed_slice(); let v4:Box<[u8]> = b"v4444".to_vec().into_boxed_slice(); let mut db = RocksDB::open_default(path).unwrap(); let p = db.put(&*k1, &*v1); assert!(p.is_ok()); let p = db.put(&*k2, &*v2); assert!(p.is_ok()); let p = db.put(&*k3, &*v3); assert!(p.is_ok()); let mut view1 = db.iterator(); let expected = vec![(cba(&k1), cba(&v1)), (cba(&k2), cba(&v2)), (cba(&k3), cba(&v3))]; { let mut iterator1 = view1.from_start(); assert_eq!(iterator1.collect::>(), expected); } // Test that it's reusable a few times { let mut iterator1 = view1.from_start(); assert_eq!(iterator1.collect::>(), expected); } { let mut iterator1 = view1.from_start(); assert_eq!(iterator1.collect::>(), expected); } { let mut iterator1 = view1.from_start(); assert_eq!(iterator1.collect::>(), expected); } // Test it in reverse a few times { let mut iterator1 = view1.from_end(); let mut tmp_vec = iterator1.collect::>(); tmp_vec.reverse(); assert_eq!(tmp_vec, expected); } { let mut iterator1 = view1.from_end(); let mut tmp_vec = iterator1.collect::>(); tmp_vec.reverse(); assert_eq!(tmp_vec, expected); } { let mut iterator1 = view1.from_end(); let mut tmp_vec = iterator1.collect::>(); tmp_vec.reverse(); assert_eq!(tmp_vec, expected); } { let mut iterator1 = view1.from_end(); let mut tmp_vec = iterator1.collect::>(); tmp_vec.reverse(); assert_eq!(tmp_vec, expected); } { let mut iterator1 = view1.from_end(); let mut tmp_vec = iterator1.collect::>(); tmp_vec.reverse(); assert_eq!(tmp_vec, expected); } // Try it forward again { let mut iterator1 = view1.from_start(); assert_eq!(iterator1.collect::>(), expected); } { let mut iterator1 = view1.from_start(); assert_eq!(iterator1.collect::>(), expected); } let mut view2 = db.iterator(); let p = db.put(&*k4, &*v4); assert!(p.is_ok()); let mut view3 = db.iterator(); let expected2 = vec![(cba(&k1), cba(&v1)), (cba(&k2), cba(&v2)), (cba(&k3), cba(&v3)), (cba(&k4), cba(&v4))]; { let mut iterator1 = view1.from_start(); assert_eq!(iterator1.collect::>(), expected); } { let mut iterator1 = view3.from_start(); assert_eq!(iterator1.collect::>(), expected2); } { let mut iterator1 = view3.from(b"k2", Direction::forward); let expected = vec![(cba(&k2), cba(&v2)), (cba(&k3), cba(&v3)), (cba(&k4), cba(&v4))]; assert_eq!(iterator1.collect::>(), expected); } { let mut iterator1 = view3.from(b"k2", Direction::reverse); let expected = vec![(cba(&k2), cba(&v2)), (cba(&k1), cba(&v1))]; assert_eq!(iterator1.collect::>(), expected); } } let opts = Options::new(); assert!(RocksDB::destroy(&opts, path).is_ok()); }