mod common; use common::{new_rng, MyRandom, NUM_BLACK_BOX_CHECKS}; use jubjub::*; #[test] fn test_to_and_from_bytes() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); assert_eq!(a, Fr::from_bytes(&Fr::to_bytes(&a)).unwrap()); } } #[test] fn test_additive_associativity() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); let b = Fr::new_random(&mut rng); let c = Fr::new_random(&mut rng); assert_eq!((a + b) + c, a + (b + c)) } } #[test] fn test_additive_identity() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); assert_eq!(a, a + Fr::zero()); assert_eq!(a, Fr::zero() + a); } } #[test] fn test_subtract_additive_identity() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); assert_eq!(a, a - Fr::zero()); assert_eq!(a, Fr::zero() - -&a); } } #[test] fn test_additive_inverse() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); let a_neg = -&a; assert_eq!(Fr::zero(), a + a_neg); assert_eq!(Fr::zero(), a_neg + a); } } #[allow(clippy::eq_op)] #[test] fn test_additive_commutativity() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); let b = Fr::new_random(&mut rng); assert_eq!(a + b, b + a); } } #[test] fn test_multiplicative_associativity() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); let b = Fr::new_random(&mut rng); let c = Fr::new_random(&mut rng); assert_eq!((a * b) * c, a * (b * c)) } } #[test] fn test_multiplicative_identity() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); assert_eq!(a, a * Fr::one()); assert_eq!(a, Fr::one() * a); } } #[test] fn test_multiplicative_inverse() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); if a == Fr::zero() { continue; } let a_inv = a.invert().unwrap(); assert_eq!(Fr::one(), a * a_inv); assert_eq!(Fr::one(), a_inv * a); } } #[test] fn test_multiplicative_commutativity() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); let b = Fr::new_random(&mut rng); assert_eq!(a * b, b * a); } } #[test] fn test_multiply_additive_identity() { let mut rng = new_rng(); for _ in 0..NUM_BLACK_BOX_CHECKS { let a = Fr::new_random(&mut rng); assert_eq!(Fr::zero(), Fr::zero() * a); assert_eq!(Fr::zero(), a * Fr::zero()); } }