use itertools::izip; use math::poly::Poly; use math::ring::Ring; #[test] fn automorphism_u64() { let n: usize = 1 << 4; let nth_root: usize = n << 1; let q_base: u64 = 65537u64; let q_power: usize = 1usize; let ring: Ring = Ring::new(n, q_base, q_power); sub_test("test_automorphism_u64::", || { test_automorphism_u64::(&ring, nth_root) }); sub_test("test_automorphism_u64::", || { test_automorphism_u64::(&ring, nth_root) }); } fn sub_test(name: &str, f: F) { println!("Running {}", name); f(); } fn test_automorphism_u64(ring: &Ring, nth_root: usize) { let n: usize = ring.n(); let q: u64 = ring.modulus.q; let mut p0: Poly = ring.new_poly(); let mut p1: Poly = ring.new_poly(); for i in 0..p0.n() { p0.0[i] = i as u64 } if NTT { ring.ntt_inplace::(&mut p0); } ring.a_apply_automorphism_into_b::(&p0, 2 * n - 1, nth_root, &mut p1); if NTT { ring.intt_inplace::(&mut p1); } p0.0[0] = 0; for i in 1..p0.n() { p0.0[i] = q - (n - i) as u64 } izip!(p0.0, p1.0).for_each(|(a, b)| assert_eq!(a, b)); } #[test] fn packing_u64() { let n: usize = 1 << 5; let q_base: u64 = 65537u64; let q_power: usize = 1usize; let ring: Ring = Ring::new(n, q_base, q_power); sub_test("test_packing_u64::", || { test_packing_full_u64::(&ring) }); sub_test("test_packing_u64::", || { test_packing_full_u64::(&ring) }); sub_test("test_packing_sparse_u64::", || { test_packing_sparse_u64::(&ring) }); sub_test("test_packing_sparse_u64::", || { test_packing_sparse_u64::(&ring) }); } fn test_packing_full_u64(ring: &Ring) { let n: usize = ring.n(); let mut result: Vec>> = vec![None; n]; for i in 0..n { let mut poly: Poly = ring.new_poly(); poly.fill(&(1 + i as u64)); if NTT { ring.ntt_inplace::(&mut poly); } result[i] = Some(poly); } ring.pack::(&mut result, ring.log_n()); if let Some(poly) = result[0].as_mut() { if NTT { ring.intt_inplace::(poly); } poly.0 .iter() .enumerate() .for_each(|(i, x)| assert_eq!(*x, 1 + i as u64)); } } fn test_packing_sparse_u64(ring: &Ring) { let n: usize = ring.n(); let mut result: Vec>> = vec![None; n]; let gap: usize = 3; for i in (0..n).step_by(gap) { let mut poly: Poly = ring.new_poly(); poly.fill(&(1 + i as u64)); if NTT { ring.ntt_inplace::(&mut poly); } result[i] = Some(poly); } ring.pack::(&mut result, ring.log_n()); if let Some(poly) = result[0].as_mut() { if NTT { ring.intt_inplace::(poly); } poly.0.iter().enumerate().for_each(|(i, x)| { if i % gap == 0 { assert_eq!(*x, 1 + i as u64) } else { assert_eq!(*x, 0u64) } }); } } #[test] fn trace_u64() { let n: usize = 1 << 5; let q_base: u64 = 65537u64; let q_power: usize = 1usize; let ring: Ring = Ring::new(n, q_base, q_power); sub_test("test_trace::", || { test_trace_u64::(&ring) }); sub_test("test_trace::", || { test_trace_u64::(&ring) }); } fn test_trace_u64(ring: &Ring) { let n: usize = ring.n(); let mut poly: Poly = ring.new_poly(); poly.0.iter_mut().enumerate().for_each(|(i, x)|{ *x = (i+1) as u64 }); if NTT{ ring.ntt_inplace::(&mut poly); } let step_start: usize = 2; ring.trace_inplace::(step_start, &mut poly); if NTT{ ring.intt_inplace::(&mut poly); } let gap: usize = 1<<(ring.log_n() - step_start); poly.0.iter().enumerate().for_each(|(i, x)| { if i % gap == 0 { assert_eq!(*x, 1 + i as u64) } else { assert_eq!(*x, 0u64) } }); }