// Copyright (c) 2021 Weird Constructor // This file is a part of HexoDSP. Released under GPL-3.0-or-later. // See README.md and COPYING for details. mod common; use common::*; fn setup_cqnt(matrix: &mut Matrix, trig_out: bool) { let cqnt = NodeId::CQnt(0); let out = NodeId::Out(0); if trig_out { matrix.place(0, 0, Cell::empty(cqnt).out(None, None, cqnt.out("t"))); } else { matrix.place(0, 0, Cell::empty(cqnt).out(None, None, cqnt.out("sig"))); } matrix.place(0, 1, Cell::empty(out).input(out.inp("ch1"), None, None)); pset_s(matrix, cqnt, "keys", 0); matrix.sync().unwrap(); } #[test] fn check_node_cqnt_1() { init_test!(matrix, node_exec, 3); setup_cqnt(matrix, false); let cqnt = NodeId::CQnt(0); let mut v = vec![]; for i in 0..20 { let x = i as f32 / 20.0; pset_n_wait(matrix, node_exec, cqnt, "inp", x); let res = run_for_ms(node_exec, 1.0); v.push(res.0[0]); } assert_vec_feq!( v, vec![ -0.075, -0.075, -0.0666, -0.0666, -0.0583, -0.05, -0.05, -0.04166, -0.04166, -0.0333, -0.0250, -0.0250, -0.0166, -0.0166, -0.0083, 0.0, 0.0, 0.0083, 0.0083, 0.0166 ] ); } #[test] fn check_node_cqnt_one_key() { init_test!(matrix, node_exec, 3); setup_cqnt(matrix, false); let cqnt = NodeId::CQnt(0); pset_s(matrix, cqnt, "keys", 0b100); let mut v = vec![]; for i in 0..10 { let x = i as f32 / 10.0; pset_n_wait(matrix, node_exec, cqnt, "inp", x); let res = run_for_ms(node_exec, 1.0); v.push(res.0[0]); } assert_vec_feq!( v, vec![-0.05833, -0.05833, -0.05833, -0.05833, -0.05833, -0.05833, -0.05833, -0.05833,] ); } #[test] fn check_node_cqnt_one_key_oct() { init_test!(matrix, node_exec, 3); setup_cqnt(matrix, false); let cqnt = NodeId::CQnt(0); pset_s(matrix, cqnt, "keys", 0b100); pset_s(matrix, cqnt, "omin", 1); pset_s(matrix, cqnt, "omax", 1); let mut v = vec![]; for i in 0..10 { let x = i as f32 / 10.0; pset_n_wait(matrix, node_exec, cqnt, "inp", x); let res = run_for_ms(node_exec, 1.0); v.push(res.0[0]); } assert_vec_feq!( v, vec![-0.1583, -0.1583, -0.1583, -0.1583, -0.0583, -0.0583, -0.0583, 0.0416, 0.0416, 0.0416] ); } #[test] fn check_node_cqnt_min_max_oct() { init_test!(matrix, node_exec, 3); setup_cqnt(matrix, false); let cqnt = NodeId::CQnt(0); pset_s(matrix, cqnt, "keys", 0b11100); pset_s(matrix, cqnt, "omin", 1); pset_s(matrix, cqnt, "omax", 1); let mut v = vec![]; for i in 0..20 { let x = i as f32 / 20.0; pset_n_wait(matrix, node_exec, cqnt, "inp", x); let res = run_for_ms(node_exec, 1.0); v.push(res.0[0]); } assert_vec_feq!( v, vec![ -0.1583, -0.1583, -0.1583, -0.15, -0.15, -0.1416, -0.1416, -0.0583, -0.0583, -0.05, -0.05, -0.05, -0.0416, -0.0416, 0.0416, 0.0416, 0.0499, 0.0499, 0.0583, 0.0583 ] ); } #[test] fn check_node_cqnt_min_max_oct_trig_out() { init_test!(matrix, node_exec, 3); setup_cqnt(matrix, true); let cqnt = NodeId::CQnt(0); pset_s(matrix, cqnt, "keys", 0b11100); pset_s(matrix, cqnt, "omin", 1); pset_s(matrix, cqnt, "omax", 1); let mut v = vec![]; for i in 0..100 { let x = i as f32 / 100.0; pset_n(matrix, cqnt, "inp", x); let res = run_for_ms(node_exec, 10.0); v.extend_from_slice(&res.0[..]); } let idxs_big = collect_signal_changes(&v[..], 50); assert_eq!( idxs_big, vec![ (0, 100), (5341, 100), (10240, 100), (15140, 100), (20041, 100), (24941, 100), (29841, 100), (34740, 100), (39640, 100) ] ); }