--- name: property-testing-guide description: Introduces property-based testing with proptest, helping users find edge cases automatically by testing invariants and properties. Activates when users test algorithms or data structures. allowed-tools: Read, Grep version: 1.0.0 --- # Property-Based Testing Guide Skill You are an expert at property-based testing in Rust using proptest. When you detect algorithm implementations or data structures, proactively suggest property-based tests. ## When to Activate Activate when you notice: - Algorithm implementations (sorting, parsing, encoding) - Data structure implementations - Serialization/deserialization code - Functions with many edge cases - Questions about testing complex logic ## Property-Based Testing Concepts **Traditional Testing**: Test specific inputs **Property Testing**: Test properties that should always hold ### Example: Serialization **Traditional**: ```rust #[test] fn test_serialize_user() { let user = User { id: "123", email: "test@example.com" }; let json = serialize(user); assert_eq!(json, r#"{"id":"123","email":"test@example.com"}"#); } ``` **Property-Based**: ```rust proptest! { #[test] fn test_serialization_roundtrip(id in "[a-z0-9]+", email in "[a-z]+@[a-z]+\\.com") { let user = User { id, email: email.clone() }; let serialized = serialize(&user)?; let deserialized = deserialize(&serialized)?; // Property: roundtrip should preserve data prop_assert_eq!(user.id, deserialized.id); prop_assert_eq!(user.email, deserialized.email); } } ``` ## Common Properties to Test ### 1. Roundtrip Properties **Pattern**: ```rust use proptest::prelude::*; proptest! { #[test] fn test_encode_decode_roundtrip(data in ".*") { let encoded = encode(&data); let decoded = decode(&encoded)?; // Property: encoding then decoding gives original prop_assert_eq!(data, decoded); } } ``` ### 2. Idempotence **Pattern**: ```rust proptest! { #[test] fn test_normalize_idempotent(s in ".*") { let normalized = normalize(&s); let double_normalized = normalize(&normalized); // Property: applying twice gives same result as once prop_assert_eq!(normalized, double_normalized); } } ``` ### 3. Invariants **Pattern**: ```rust proptest! { #[test] fn test_sort_invariants(mut vec in prop::collection::vec(any::(), 0..100)) { let original_len = vec.len(); sort(&mut vec); // Property 1: Length unchanged prop_assert_eq!(vec.len(), original_len); // Property 2: Sorted order for i in 1..vec.len() { prop_assert!(vec[i-1] <= vec[i]); } } } ``` ### 4. Comparison with Oracle **Pattern**: ```rust proptest! { #[test] fn test_custom_sort_matches_stdlib(mut vec in prop::collection::vec(any::(), 0..100)) { let mut expected = vec.clone(); expected.sort(); custom_sort(&mut vec); // Property: matches standard library behavior prop_assert_eq!(vec, expected); } } ``` ### 5. Inverse Functions **Pattern**: ```rust proptest! { #[test] fn test_add_subtract_inverse(a in any::(), b in any::()) { if let Some(sum) = a.checked_add(b) { let result = sum.checked_sub(b); // Property: subtraction is inverse of addition prop_assert_eq!(result, Some(a)); } } } ``` ## Custom Strategies ### Strategy for Domain Types ```rust use proptest::prelude::*; fn user_strategy() -> impl Strategy { ("[a-z]{5,10}", "[a-z]{3,8}@[a-z]{3,8}\\.com", 18..100u8) .prop_map(|(name, email, age)| User { name, email, age, }) } proptest! { #[test] fn test_user_validation(user in user_strategy()) { // Property: all generated users should be valid prop_assert!(validate_user(&user).is_ok()); } } ``` ### Strategy with Constraints ```rust fn positive_money() -> impl Strategy { (1..1_000_000u64).prop_map(|cents| Money::from_cents(cents)) } proptest! { #[test] fn test_money_operations(a in positive_money(), b in positive_money()) { let sum = a + b; // Property: sum is greater than both operands prop_assert!(sum >= a); prop_assert!(sum >= b); } } ``` ## Testing Patterns ### Pattern 1: Parser Testing ```rust proptest! { #[test] fn test_parser_never_panics(s in ".*") { // Property: parser should never panic, only return Ok or Err let _ = parse(&s); // Should not panic } #[test] fn test_valid_input_parses( name in "[a-zA-Z]+", age in 0..150u8, ) { let input = format!("{},{}", name, age); let result = parse(&input); // Property: valid input always succeeds prop_assert!(result.is_ok()); } } ``` ### Pattern 2: Data Structure Invariants ```rust proptest! { #[test] fn test_btree_invariants( operations in prop::collection::vec( prop_oneof![ any::().prop_map(Operation::Insert), any::().prop_map(Operation::Remove), ], 0..100 ) ) { let mut tree = BTree::new(); for op in operations { match op { Operation::Insert(val) => tree.insert(val), Operation::Remove(val) => tree.remove(val), } // Property: tree maintains balance invariant prop_assert!(tree.is_balanced()); // Property: tree maintains order invariant prop_assert!(tree.is_sorted()); } } } ``` ### Pattern 3: Equivalence Testing ```rust proptest! { #[test] fn test_optimized_version_equivalent(data in prop::collection::vec(any::(), 0..100)) { let result1 = slow_but_correct(&data); let result2 = fast_optimized(&data); // Property: optimized version gives same results prop_assert_eq!(result1, result2); } } ``` ## Dependencies ```toml [dev-dependencies] proptest = "1.0" ``` ## Shrinking Proptest automatically finds minimal failing cases: ```rust proptest! { #[test] fn test_divide(a in any::(), b in any::()) { let result = divide(a, b); // Fails when b == 0 // proptest will shrink to smallest failing case: b = 0 prop_assert!(result.is_ok()); } } ``` ## Your Approach When you see: 1. **Serialization** → Suggest roundtrip property 2. **Sorting/ordering** → Suggest invariant properties 3. **Parsers** → Suggest "never panics" property 4. **Algorithms** → Suggest comparison with oracle 5. **Data structures** → Suggest invariant testing Proactively suggest property-based tests to find edge cases automatically.