#![allow(non_snake_case)] use curve25519_dalek::ristretto::RistrettoPoint as G; use group::ff::PrimeField; use group::Group; use sha2::Sha512; use sigma_compiler::*; fn pubscalars_or_vec_test_vecsize_val( vecsize: usize, b_val: u128, ) -> sigma_proofs::errors::Result<()> { sigma_compiler! { proof, (vec x, pub vec a, pub vec b, rand vec r), (vec C, const cind A, const cind B), C = x*A + r*B, OR ( b = 2*a, b = 2*a - 3, ) } type Scalar = ::Scalar; let mut rng = rand::thread_rng(); let A = G::hash_from_bytes::(b"Generator A"); let B = G::generator(); let r: Vec = (0..vecsize).map(|_| Scalar::random(&mut rng)).collect(); let x: Vec = (0..vecsize).map(|i| Scalar::from_u128(i as u128)).collect(); let a: Vec = (0..vecsize) .map(|i| Scalar::from_u128((i + 12) as u128)) .collect(); let b: Vec = (0..vecsize) .map(|i| a[i] + a[i] - Scalar::from_u128(b_val)) .collect(); let C: Vec = (0..vecsize).map(|i| x[i] * A + r[i] * B).collect(); let instance = proof::Instance { C, A, B, a, b }; let witness = proof::Witness { x, r }; let proof = proof::prove(&instance, &witness, b"pubscalars_vec_test", &mut rng)?; proof::verify(&instance, &proof, b"pubscalars_vec_test") } #[test] fn pubscalars_or_vec_test() { pubscalars_or_vec_test_vecsize_val(0, 0).unwrap(); pubscalars_or_vec_test_vecsize_val(0, 1).unwrap(); pubscalars_or_vec_test_vecsize_val(0, 2).unwrap(); pubscalars_or_vec_test_vecsize_val(0, 3).unwrap(); pubscalars_or_vec_test_vecsize_val(0, 4).unwrap(); for vecsize in [1, 2, 20] { pubscalars_or_vec_test_vecsize_val(vecsize, 0).unwrap(); pubscalars_or_vec_test_vecsize_val(vecsize, 1).unwrap_err(); pubscalars_or_vec_test_vecsize_val(vecsize, 2).unwrap_err(); pubscalars_or_vec_test_vecsize_val(vecsize, 3).unwrap(); pubscalars_or_vec_test_vecsize_val(vecsize, 4).unwrap_err(); } }