use std::ops::Deref; use dharitri_sc::types::{BigUint, ManagedVec}; use dharitri_sc_scenario::api::StaticApi; #[test] fn test_managed_vec_iter_rev() { let mut managed_vec = ManagedVec::>::new(); for i in 20u64..=30u64 { managed_vec.push(BigUint::from(i)); } let numbers: Vec = managed_vec .iter() .map(|biguint| biguint.to_u64().unwrap()) .collect(); let expected_numbers: Vec = (20u64..=30u64).collect(); assert_eq!(numbers, expected_numbers); let reversed_numbers: Vec = managed_vec .iter() .rev() .map(|biguint| biguint.to_u64().unwrap()) .collect(); let expected_reversed_numbers: Vec = (20u64..=30u64).rev().collect(); assert_eq!(reversed_numbers, expected_reversed_numbers); } #[test] fn test_managed_vec_from_iterator_trait() { let mut managed_vec = ManagedVec::::new(); for i in 1..=10 { managed_vec.push(i); } let mut expected_vec = ManagedVec::::new(); for i in 1..=5 { expected_vec.push(i); } let collected_vec = managed_vec .iter() .filter(|x| x <= &5) .collect::>(); assert_eq!(collected_vec, expected_vec); } #[test] fn test_managed_vec_extend_trait() { let mut managed_vec = ManagedVec::::new(); for i in 1..=10 { managed_vec.push(i); } let mut expected_vec1 = ManagedVec::::new(); for i in 1..=5 { expected_vec1.push(i); } let mut expected_vec2 = ManagedVec::::new(); for i in 6..=10 { expected_vec2.push(i); } let (collected_vec1, collected_vec2) = managed_vec .iter() .partition::, _>(|x| x <= &5); assert_eq!(collected_vec1, expected_vec1); assert_eq!(collected_vec2, expected_vec2); } #[test] fn test_managed_vec_iter_exact_size_trait() { let mut managed_vec = ManagedVec::::new(); for i in 1..=10 { managed_vec.push(i); } assert!(managed_vec.len() == 10); let it = managed_vec.iter(); assert!(it.size_hint() == (10, Some(10))); assert!(it.len() == 10); let it2 = it.skip(2); assert!(it2.len() == 8); let it3 = it2.clone(); assert!(it2.skip(3).len() == 5); assert!(it3.skip(5).len() == 3); } #[test] fn test_into_vec() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in 20u64..=30u64 { let biguint = BigUint::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_take_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in 20u64..=30u64 { managed_vec.push(i); vec.push(i); } assert_eq!(managed_vec.len(), 11); assert_eq!(managed_vec.take(4), 24u64); assert_eq!(managed_vec.len(), 10); } #[test] fn test_take_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in 20u64..=30u64 { let biguint = BigUint::::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } assert_eq!(managed_vec.len(), 11); assert_eq!(managed_vec.take(4), BigUint::::from(24u64)); assert_eq!(managed_vec.len(), 10); } #[test] fn test_sort_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in (20u64..=30u64).rev() { managed_vec.push(i); vec.push(i); } assert!(!managed_vec.is_sorted()); managed_vec.sort(); vec.sort(); assert!(managed_vec.is_sorted()); managed_vec.sort(); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in (20u64..=30u64).rev() { let biguint = BigUint::::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } assert!(!managed_vec.is_sorted()); managed_vec.sort(); vec.sort(); assert!(managed_vec.is_sorted()); assert_eq!(vec, managed_vec.into_vec()); } // flips a two-digit number fn flip(n: &u64) -> u64 { n / 10u64 + n % 10u64 * 10 } #[test] fn test_sort_by_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in (20u64..=30u64).rev() { managed_vec.push(i); vec.push(i); } assert!(!managed_vec.is_sorted()); managed_vec.sort_by(|a, b| flip(a).cmp(&flip(b))); vec.sort_by_key(flip); assert!(!managed_vec.is_sorted()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_by_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in (20u64..=30u64).rev() { let biguint = BigUint::::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } assert!(!managed_vec.is_sorted()); managed_vec.sort_by(|a, b| { let a_u64 = a.to_u64().unwrap(); let b_u64 = b.to_u64().unwrap(); flip(&a_u64).cmp(&flip(&b_u64)) }); vec.sort_by(|a, b| { let a_u64 = a.to_u64().unwrap(); let b_u64 = b.to_u64().unwrap(); flip(&a_u64).cmp(&flip(&b_u64)) }); assert!(!managed_vec.is_sorted()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_by_key_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in [4444u64, 333u64, 1u64, 22u64] { managed_vec.push(i); vec.push(i); } assert!(!managed_vec.is_sorted()); managed_vec.sort_by_key(|a| a.to_string().len()); vec.sort_by_key(|a| a.to_string().len()); assert!(managed_vec.is_sorted()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_by_key_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in [4444u64, 333u64, 1u64, 22u64] { let biguint = BigUint::::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } assert!(!managed_vec.is_sorted()); managed_vec.sort_by_key(|a| a.to_u64().unwrap().to_string().len()); vec.sort_by_key(|a| a.to_u64().unwrap().to_string().len()); assert!(managed_vec.is_sorted()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_by_cached_key_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in [4u64, 33u64, 222u64, 1111u64] { managed_vec.push(i); vec.push(i); } managed_vec.sort_by_cached_key(|a| a.to_string()); vec.sort_by_cached_key(|a| a.to_string()); let managed_vec_as_vec = managed_vec.into_vec(); assert_eq!(managed_vec_as_vec, [1111u64, 222u64, 33u64, 4u64]); assert_eq!(vec, managed_vec_as_vec); } #[test] fn test_sort_by_cached_key_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in [4u64, 33u64, 222u64, 1111u64] { let biguint = BigUint::::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } managed_vec.sort_by_cached_key(|a| a.to_u64().unwrap().to_string()); vec.sort_by_cached_key(|a| a.to_u64().unwrap().to_string()); let managed_vec_as_vec = managed_vec.into_vec(); assert_eq!(managed_vec_as_vec, [1111u64, 222u64, 33u64, 4u64]); assert_eq!(vec, managed_vec_as_vec); } #[test] fn test_sort_unstable_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in (20u64..=30u64).rev() { managed_vec.push(i); vec.push(i); } managed_vec.sort_unstable(); vec.sort_unstable(); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_unstable_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in (20u64..=30u64).rev() { let biguint = BigUint::::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } managed_vec.sort_unstable(); vec.sort_unstable(); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_unstable_by_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in (20u64..=30u64).rev() { managed_vec.push(i); vec.push(i); } assert!(!managed_vec.is_sorted()); managed_vec.sort_unstable_by(|a, b| flip(a).cmp(&flip(b))); vec.sort_unstable_by_key(flip); assert!(!managed_vec.is_sorted()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_unstable_by_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in (20u64..=30u64).rev() { let biguint = BigUint::::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } assert!(!managed_vec.is_sorted()); managed_vec.sort_unstable_by(|a, b| { let a_u64 = a.to_u64().unwrap(); let b_u64 = b.to_u64().unwrap(); flip(&a_u64).cmp(&flip(&b_u64)) }); vec.sort_unstable_by(|a, b| { let a_u64 = a.to_u64().unwrap(); let b_u64 = b.to_u64().unwrap(); flip(&a_u64).cmp(&flip(&b_u64)) }); assert!(!managed_vec.is_sorted()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_unstable_by_key_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in [4444u64, 333u64, 1u64, 22u64] { managed_vec.push(i); vec.push(i); } assert!(!managed_vec.is_sorted()); managed_vec.sort_unstable_by_key(|a| a.to_string().len()); vec.sort_unstable_by_key(|a| a.to_string().len()); assert!(managed_vec.is_sorted()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sort_unstable_by_key_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in [4444u64, 333u64, 1u64, 22u64] { let biguint = BigUint::::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } assert!(!managed_vec.is_sorted()); managed_vec.sort_unstable_by_key(|a| a.to_u64().unwrap().to_string().len()); vec.sort_unstable_by_key(|a| a.to_u64().unwrap().to_string().len()); assert!(managed_vec.is_sorted()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_dedup_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in [2u64, 3u64, 2u64, 2u64, 6u64, 3u64, 5u64, 2u64] { managed_vec.push(i); vec.push(i); } managed_vec.dedup(); vec.dedup(); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_dedup_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in [2u64, 3u64, 2u64, 2u64, 6u64, 3u64, 5u64, 2u64] { let biguint = BigUint::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } managed_vec.dedup(); vec.dedup(); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sorted_dedup_u64() { let mut vec = Vec::::new(); let mut managed_vec = ManagedVec::::new(); for i in [2u64, 3u64, 2u64, 2u64, 6u64, 3u64, 5u64, 2u64] { managed_vec.push(i); vec.push(i); } managed_vec.sort(); vec.sort(); managed_vec.dedup(); vec.dedup(); assert_eq!(4, managed_vec.len()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_sorted_dedup_biguint() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in [2u64, 3u64, 2u64, 2u64, 6u64, 3u64, 5u64, 2u64] { let biguint = BigUint::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } managed_vec.sort(); vec.sort(); managed_vec.dedup(); vec.dedup(); assert_eq!(4, managed_vec.len()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_with_self_as_vec() { let mut vec = Vec::>::new(); let mut managed_vec = ManagedVec::>::new(); for i in 20u64..=30u64 { let biguint = BigUint::from(i); managed_vec.push(biguint.clone()); vec.push(biguint); } let item_to_remove = 25u64; if let Some(pos_to_remove) = vec.iter().position(|value| *value == item_to_remove) { let _ = vec.swap_remove(pos_to_remove); } managed_vec.with_self_as_vec(|t_vec| { if let Some(signer_pos) = t_vec.iter().position(|value| *value == item_to_remove) { let _ = t_vec.swap_remove(signer_pos); } }); assert_eq!(managed_vec.into_vec(), vec); } #[test] fn test_managed_from() { let mut vec = Vec::new(); for i in 20u64..=30u64 { let biguint = BigUint::from(i); vec.push(biguint); } let managed_vec = ManagedVec::>::from(vec.clone()); assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_append_vec() { let mut vec1 = Vec::new(); let mut vec2 = Vec::new(); let mut vec = Vec::new(); for i in 20u64..=30u64 { let biguint = BigUint::from(i); vec.push(biguint.clone()); vec1.push(biguint); } for i in 20u64..=30u64 { let biguint = BigUint::from(i); vec.push(biguint.clone()); vec2.push(biguint); } let managed_vec = ManagedVec::>::from(vec.clone()); let mut managed_vec1 = ManagedVec::>::from(vec1.clone()); let managed_vec2 = ManagedVec::>::from(vec2.clone()); managed_vec1.append_vec(managed_vec2); assert_eq!(managed_vec, managed_vec1); } #[test] fn test_overwrite_with_single_item() { let mut vec = Vec::new(); for i in 20u64..=30u64 { let biguint = BigUint::from(i); vec.push(biguint); } let mut managed_vec = ManagedVec::>::from(vec.clone()); assert_eq!(vec, managed_vec.clone().into_vec()); let single_elem = BigUint::from(100u64); managed_vec.overwrite_with_single_item(single_elem.clone()); vec = vec![single_elem]; assert_eq!(vec, managed_vec.into_vec()); } #[test] fn test_managed_vec_get_mut() { let mut managed_vec = ManagedVec::>::new(); managed_vec.push(BigUint::from(100u32)); managed_vec.push(BigUint::from(100u32)); { let mut first_elem = managed_vec.get_mut(0); *first_elem += 100u32; } assert_eq!(*managed_vec.get(0), 200u32); assert_eq!(*managed_vec.get(1), 100u32); { let first_elem = managed_vec.get(0).deref().clone(); let mut second_elem = managed_vec.get_mut(1); *second_elem += first_elem; } assert_eq!(*managed_vec.get(0), 200u32); assert_eq!(*managed_vec.get(1), 300u32); }