#![allow(
clippy::approx_constant,
clippy::useless_vec,
clippy::len_zero,
clippy::unnecessary_cast,
clippy::redundant_closure,
clippy::too_many_arguments,
clippy::type_complexity,
clippy::needless_borrow,
clippy::enum_variant_names,
clippy::upper_case_acronyms,
clippy::inconsistent_digit_grouping,
clippy::unit_cmp,
clippy::assertions_on_constants,
clippy::iter_on_single_items,
clippy::expect_fun_call,
clippy::redundant_pattern_matching,
variant_size_differences,
clippy::absurd_extreme_comparisons,
clippy::nonminimal_bool,
clippy::for_kv_map,
clippy::needless_range_loop,
clippy::single_match,
clippy::collapsible_if,
clippy::needless_return,
clippy::redundant_clone,
clippy::map_entry,
clippy::match_single_binding,
clippy::bool_comparison,
clippy::derivable_impls,
clippy::manual_range_contains,
clippy::needless_borrows_for_generic_args,
clippy::manual_map,
clippy::vec_init_then_push,
clippy::identity_op,
clippy::manual_flatten,
clippy::single_char_pattern,
clippy::search_is_some,
clippy::option_map_unit_fn,
clippy::while_let_on_iterator,
clippy::clone_on_copy,
clippy::box_collection,
clippy::redundant_field_names,
clippy::ptr_arg,
clippy::large_enum_variant,
clippy::match_ref_pats,
clippy::needless_pass_by_value,
clippy::unused_unit,
clippy::let_and_return,
clippy::suspicious_else_formatting,
clippy::manual_strip,
clippy::match_like_matches_macro,
clippy::from_over_into,
clippy::wrong_self_convention,
clippy::inherent_to_string,
clippy::new_without_default,
clippy::unnecessary_wraps,
clippy::field_reassign_with_default,
clippy::manual_find,
clippy::unnecessary_lazy_evaluations,
clippy::should_implement_trait,
clippy::missing_safety_doc,
clippy::unusual_byte_groupings,
clippy::bool_assert_comparison,
clippy::zero_prefixed_literal,
clippy::await_holding_lock,
clippy::manual_saturating_arithmetic,
clippy::explicit_counter_loop,
clippy::needless_lifetimes,
clippy::single_component_path_imports,
clippy::uninlined_format_args,
clippy::iter_cloned_collect,
clippy::manual_str_repeat,
clippy::excessive_precision,
clippy::precedence,
clippy::unnecessary_literal_unwrap
)]
use oxicode::{
config, decode_from_slice, decode_from_slice_with_config, encode_to_vec,
encode_to_vec_with_config,
};
use std::collections::{BTreeMap, BTreeSet, BinaryHeap, LinkedList, VecDeque};
#[test]
fn test_vecdeque_u32_empty_roundtrip() {
let val: VecDeque<u32> = VecDeque::new();
let enc = encode_to_vec(&val).expect("encode VecDeque<u32> empty");
let (decoded, _): (VecDeque<u32>, usize) =
decode_from_slice(&enc).expect("decode VecDeque<u32> empty");
assert_eq!(val, decoded);
}
#[test]
fn test_vecdeque_u32_5_elements_roundtrip() {
let val: VecDeque<u32> = vec![10u32, 20, 30, 40, 50].into_iter().collect();
let enc = encode_to_vec(&val).expect("encode VecDeque<u32> 5 elements");
let (decoded, _): (VecDeque<u32>, usize) =
decode_from_slice(&enc).expect("decode VecDeque<u32> 5 elements");
assert_eq!(val, decoded);
}
#[test]
fn test_vecdeque_string_roundtrip() {
let val: VecDeque<String> = vec!["alpha".to_string(), "beta".to_string(), "gamma".to_string()]
.into_iter()
.collect();
let enc = encode_to_vec(&val).expect("encode VecDeque<String>");
let (decoded, _): (VecDeque<String>, usize) =
decode_from_slice(&enc).expect("decode VecDeque<String>");
assert_eq!(val, decoded);
}
#[test]
fn test_linkedlist_u32_empty_roundtrip() {
let val: LinkedList<u32> = LinkedList::new();
let enc = encode_to_vec(&val).expect("encode LinkedList<u32> empty");
let (decoded, _): (LinkedList<u32>, usize) =
decode_from_slice(&enc).expect("decode LinkedList<u32> empty");
assert_eq!(val, decoded);
}
#[test]
fn test_linkedlist_u32_5_elements_roundtrip() {
let val: LinkedList<u32> = vec![1u32, 2, 3, 4, 5].into_iter().collect();
let enc = encode_to_vec(&val).expect("encode LinkedList<u32> 5 elements");
let (decoded, _): (LinkedList<u32>, usize) =
decode_from_slice(&enc).expect("decode LinkedList<u32> 5 elements");
assert_eq!(val, decoded);
}
#[test]
fn test_linkedlist_string_roundtrip() {
let val: LinkedList<String> = vec!["one".to_string(), "two".to_string(), "three".to_string()]
.into_iter()
.collect();
let enc = encode_to_vec(&val).expect("encode LinkedList<String>");
let (decoded, _): (LinkedList<String>, usize) =
decode_from_slice(&enc).expect("decode LinkedList<String>");
assert_eq!(val, decoded);
}
#[test]
fn test_binaryheap_u32_roundtrip() {
let val: BinaryHeap<u32> = vec![3u32, 1, 4, 1, 5, 9, 2, 6].into_iter().collect();
let enc = encode_to_vec(&val).expect("encode BinaryHeap<u32>");
let (decoded, _): (BinaryHeap<u32>, usize) =
decode_from_slice(&enc).expect("decode BinaryHeap<u32>");
let mut orig: Vec<u32> = val.into_vec();
let mut dec: Vec<u32> = decoded.into_vec();
orig.sort();
dec.sort();
assert_eq!(orig, dec);
}
#[test]
fn test_binaryheap_i32_roundtrip() {
let val: BinaryHeap<i32> = vec![-5i32, 0, 3, -1, 7, 2].into_iter().collect();
let enc = encode_to_vec(&val).expect("encode BinaryHeap<i32>");
let (decoded, _): (BinaryHeap<i32>, usize) =
decode_from_slice(&enc).expect("decode BinaryHeap<i32>");
let mut orig: Vec<i32> = val.into_vec();
let mut dec: Vec<i32> = decoded.into_vec();
orig.sort();
dec.sort();
assert_eq!(orig, dec);
}
#[test]
fn test_btreemap_u32_string_empty_roundtrip() {
let val: BTreeMap<u32, String> = BTreeMap::new();
let enc = encode_to_vec(&val).expect("encode BTreeMap<u32, String> empty");
let (decoded, _): (BTreeMap<u32, String>, usize) =
decode_from_slice(&enc).expect("decode BTreeMap<u32, String> empty");
assert_eq!(val, decoded);
}
#[test]
fn test_btreemap_u32_string_5_entries_roundtrip() {
let mut val: BTreeMap<u32, String> = BTreeMap::new();
val.insert(1, "one".to_string());
val.insert(2, "two".to_string());
val.insert(3, "three".to_string());
val.insert(4, "four".to_string());
val.insert(5, "five".to_string());
let enc = encode_to_vec(&val).expect("encode BTreeMap<u32, String> 5 entries");
let (decoded, _): (BTreeMap<u32, String>, usize) =
decode_from_slice(&enc).expect("decode BTreeMap<u32, String> 5 entries");
assert_eq!(val, decoded);
}
#[test]
fn test_btreeset_u32_5_elements_roundtrip() {
let val: BTreeSet<u32> = vec![100u32, 200, 300, 400, 500].into_iter().collect();
let enc = encode_to_vec(&val).expect("encode BTreeSet<u32> 5 elements");
let (decoded, _): (BTreeSet<u32>, usize) =
decode_from_slice(&enc).expect("decode BTreeSet<u32> 5 elements");
assert_eq!(val, decoded);
}
#[test]
fn test_btreeset_string_roundtrip() {
let val: BTreeSet<String> = vec![
"apple".to_string(),
"banana".to_string(),
"cherry".to_string(),
]
.into_iter()
.collect();
let enc = encode_to_vec(&val).expect("encode BTreeSet<String>");
let (decoded, _): (BTreeSet<String>, usize) =
decode_from_slice(&enc).expect("decode BTreeSet<String>");
assert_eq!(val, decoded);
}
#[test]
fn test_vecdeque_u32_consumed_bytes_equals_encoded_len() {
let val: VecDeque<u32> = vec![7u32, 8, 9].into_iter().collect();
let enc = encode_to_vec(&val).expect("encode VecDeque<u32> for byte count");
let (_, consumed): (VecDeque<u32>, usize) =
decode_from_slice(&enc).expect("decode VecDeque<u32> for byte count");
assert_eq!(consumed, enc.len());
}
#[test]
fn test_btreemap_string_vec_u8_roundtrip() {
let mut val: BTreeMap<String, Vec<u8>> = BTreeMap::new();
val.insert("key_a".to_string(), vec![0u8, 1, 2, 3]);
val.insert("key_b".to_string(), vec![255u8, 254, 253]);
val.insert("key_c".to_string(), vec![]);
let enc = encode_to_vec(&val).expect("encode BTreeMap<String, Vec<u8>>");
let (decoded, _): (BTreeMap<String, Vec<u8>>, usize) =
decode_from_slice(&enc).expect("decode BTreeMap<String, Vec<u8>>");
assert_eq!(val, decoded);
}
#[test]
fn test_nested_btreemap_u32_btreemap_u32_string_roundtrip() {
let mut inner1: BTreeMap<u32, String> = BTreeMap::new();
inner1.insert(1, "inner_one".to_string());
inner1.insert(2, "inner_two".to_string());
let mut inner2: BTreeMap<u32, String> = BTreeMap::new();
inner2.insert(10, "inner_ten".to_string());
let mut val: BTreeMap<u32, BTreeMap<u32, String>> = BTreeMap::new();
val.insert(100, inner1);
val.insert(200, inner2);
let enc = encode_to_vec(&val).expect("encode nested BTreeMap");
let (decoded, _): (BTreeMap<u32, BTreeMap<u32, String>>, usize) =
decode_from_slice(&enc).expect("decode nested BTreeMap");
assert_eq!(val, decoded);
}
#[test]
fn test_vec_of_vecdeque_u32_roundtrip() {
let val: Vec<VecDeque<u32>> = vec![
vec![1u32, 2, 3].into_iter().collect(),
VecDeque::new(),
vec![4u32, 5].into_iter().collect(),
];
let enc = encode_to_vec(&val).expect("encode Vec<VecDeque<u32>>");
let (decoded, _): (Vec<VecDeque<u32>>, usize) =
decode_from_slice(&enc).expect("decode Vec<VecDeque<u32>>");
assert_eq!(val, decoded);
}
#[test]
fn test_option_vecdeque_u32_some_roundtrip() {
let inner: VecDeque<u32> = vec![11u32, 22, 33].into_iter().collect();
let val: Option<VecDeque<u32>> = Some(inner);
let enc = encode_to_vec(&val).expect("encode Option<VecDeque<u32>> Some");
let (decoded, _): (Option<VecDeque<u32>>, usize) =
decode_from_slice(&enc).expect("decode Option<VecDeque<u32>> Some");
assert_eq!(val, decoded);
}
#[test]
fn test_option_btreemap_u32_u32_none_roundtrip() {
let val: Option<BTreeMap<u32, u32>> = None;
let enc = encode_to_vec(&val).expect("encode Option<BTreeMap<u32, u32>> None");
let (decoded, _): (Option<BTreeMap<u32, u32>>, usize) =
decode_from_slice(&enc).expect("decode Option<BTreeMap<u32, u32>> None");
assert_eq!(val, decoded);
}
#[test]
fn test_btreemap_u32_u32_fixed_int_config_roundtrip() {
let mut val: BTreeMap<u32, u32> = BTreeMap::new();
val.insert(1, 100);
val.insert(2, 200);
val.insert(3, 300);
let cfg = config::standard().with_fixed_int_encoding();
let enc = encode_to_vec_with_config(&val, cfg).expect("encode BTreeMap<u32, u32> fixed int");
let (decoded, _): (BTreeMap<u32, u32>, usize) =
decode_from_slice_with_config(&enc, cfg).expect("decode BTreeMap<u32, u32> fixed int");
assert_eq!(val, decoded);
}
#[test]
fn test_large_vecdeque_u8_1000_elements_roundtrip() {
let val: VecDeque<u8> = (0u8..=255).cycle().take(1000).collect();
let enc = encode_to_vec(&val).expect("encode large VecDeque<u8> 1000 elements");
let (decoded, _): (VecDeque<u8>, usize) =
decode_from_slice(&enc).expect("decode large VecDeque<u8> 1000 elements");
assert_eq!(val, decoded);
}
#[test]
fn test_btreeset_u32_100_elements_roundtrip() {
let val: BTreeSet<u32> = (0u32..100).collect();
let enc = encode_to_vec(&val).expect("encode BTreeSet<u32> 100 elements");
let (decoded, _): (BTreeSet<u32>, usize) =
decode_from_slice(&enc).expect("decode BTreeSet<u32> 100 elements");
assert_eq!(val, decoded);
}
#[test]
fn test_linkedlist_vecdeque_u32_nested_roundtrip() {
let dq1: VecDeque<u32> = vec![1u32, 2, 3].into_iter().collect();
let dq2: VecDeque<u32> = VecDeque::new();
let dq3: VecDeque<u32> = vec![4u32, 5, 6, 7].into_iter().collect();
let mut val: LinkedList<VecDeque<u32>> = LinkedList::new();
val.push_back(dq1);
val.push_back(dq2);
val.push_back(dq3);
let enc = encode_to_vec(&val).expect("encode LinkedList<VecDeque<u32>>");
let (decoded, _): (LinkedList<VecDeque<u32>>, usize) =
decode_from_slice(&enc).expect("decode LinkedList<VecDeque<u32>>");
assert_eq!(val, decoded);
}