use multiversx_sc::{ codec::multi_types::MultiValue5, types::{BigUint, MultiValueEncoded}, }; use multiversx_sc_scenario::api::StaticApi; #[test] fn test_multi_value_encoded_1() { let mut multi_value_1 = MultiValueEncoded::>::new(); for i in 20u64..=30u64 { multi_value_1.push(BigUint::from(i)); } assert_eq!(multi_value_1.len(), 11); } #[test] fn test_multi_value_encoded_5() { let mut multi_value_1 = MultiValueEncoded::>::new(); for i in 20u64..=30u64 { multi_value_1.push(MultiValue5::from((i, i, i, i, i))); } assert_eq!(multi_value_1.len(), 11); } #[test] fn test_multi_value5_eq_test() { let multi_value1 = MultiValue5::from((1, 2, 3, 4, 5)); let multi_value2 = MultiValue5::from((1, 2, 3, 4, 5)); assert_eq!(multi_value1, multi_value2) } #[test] fn test_multi_value5_ne_test() { let multi_value1 = MultiValue5::from((1, 2, 3, 4, 5)); let multi_value2 = MultiValue5::from((1, 2, 3, 4, 4)); assert_ne!(multi_value1, multi_value2) } #[test] fn test_multi_value5_from_iterator_trait() { let mut multi_value1 = MultiValueEncoded::>::new(); for i in 1..=10 { multi_value1.push(MultiValue5::from((i, i, i, i, i))); } let mut multi_value_expected = MultiValueEncoded::>::new(); for i in 1..=5 { multi_value_expected.push(MultiValue5::from((i, i, i, i, i))); } let collected_vec = multi_value1 .into_iter() .map(|x| x.into_tuple()) .filter(|(x, _, _, _, _)| x <= &5) .map(|t| t.into()) .collect::>>(); assert_eq!(collected_vec, multi_value_expected); }