mod common; use common::*; #[test] fn check_node_ad_1() { let (node_conf, mut node_exec) = new_node_engine(); let mut matrix = Matrix::new(node_conf, 3, 3); let ad = NodeId::Ad(0); let out = NodeId::Out(0); matrix.place(0, 0, Cell::empty(ad) .out(None, None, ad.out("sig"))); matrix.place(0, 1, Cell::empty(out) .input(out.inp("ch1"), None, None)); matrix.sync().unwrap(); let trig_p = ad.inp_param("trig").unwrap(); matrix.set_param(trig_p, SAtom::param(1.0)); let res = run_for_ms(&mut node_exec, 25.0); assert_decimated_slope_feq!(res.0, 50, vec![ 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, // 44.1 per ms, attack is default 3.0ms (roughly 3 * 50 samples): 0.007558584, 0.007558584, 0.007558584, // 44.1 per ms, decay is default 10.0ms (=> roughly 9 * 50 samples): -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.0022675693, -0.0022675693, -0.0022675842, -0.0022675693, -0.0022675726, 0.0, 0.0, 0.0, 0.0 ]); matrix.set_param(trig_p, SAtom::param(0.0)); run_for_ms(&mut node_exec, 10.0); matrix.set_param(trig_p, SAtom::param(1.0)); let res = run_for_ms(&mut node_exec, 25.0); //d// println!("RES: {:?}", res); let start = res.0[330]; assert_float_eq!(start, 0.0075585); let peak = res.0[330 + ((44.1_f64 * 3.0).floor() as usize)]; assert_float_eq!(peak, 1.0); } #[test] fn check_node_ad_retrig() { let (node_conf, mut node_exec) = new_node_engine(); let mut matrix = Matrix::new(node_conf, 3, 3); let test = NodeId::Test(0); let ad = NodeId::Ad(0); let out = NodeId::Out(0); matrix.place(0, 0, Cell::empty(test) .out(None, None, test.out("sig"))); matrix.place(0, 1, Cell::empty(ad) .input(ad.inp("trig"), None, None) .out(None, None, ad.out("sig"))); matrix.place(0, 2, Cell::empty(out) .input(out.inp("ch1"), None, None)); matrix.sync().unwrap(); let trig_p = test.inp_param("p").unwrap(); matrix.set_param(trig_p, SAtom::param(1.0)); let res = run_for_ms(&mut node_exec, 25.0); assert_decimated_slope_feq!(res.0, 50, vec![ // XXX: Direct trigger! // Due to Test node outputting an unsmoothed value! // 44.1 per ms, attack is default 3.0ms (roughly 3 * 50 samples): 0.007558584, 0.007558584, 0.007558584, // 44.1 per ms, decay is default 10.0ms (=> roughly 9 * 50 samples): -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.0022675693, -0.0022675693, -0.0022675842, -0.0022675693, -0.0022675726, 0.0, 0.0, 0.0, 0.0 ]); matrix.set_param(trig_p, SAtom::param(0.0)); run_for_ms(&mut node_exec, 0.1); matrix.set_param(trig_p, SAtom::param(1.0)); let res = run_for_ms(&mut node_exec, 1.5); assert_decimated_feq!(res.0, 2, vec![ 0.0075585, 0.022675736, 0.03779289, 0.05291005, 0.068027206, 0.08314436, 0.09826152, 0.113378674, 0.12849583, 0.143613, 0.15873015, 0.1738473, 0.18896446, 0.20408161, 0.21919878, 0.23431593, 0.24943309, 0.26455024, 0.2796674, 0.29478455, 0.3099017, 0.32501888, 0.34013602, 0.3552532, 0.37037033, 0.3854875, 0.40060467, 0.4157218, 0.43083897, 0.4459561, 0.46107328, 0.47619045, 0.4913076 ]); // Reset trigger matrix.set_param(trig_p, SAtom::param(0.0)); let res = run_for_ms(&mut node_exec, 0.1); assert_slope_feq!(res.0, vec![0.00755; 3]); // Retrigger attack (should do nothing) matrix.set_param(trig_p, SAtom::param(1.0)); let res = run_for_ms(&mut node_exec, 0.1); assert_slope_feq!(res.0, vec![0.00755; 7]); // Wait into decay phase matrix.set_param(trig_p, SAtom::param(0.0)); let res = run_for_ms(&mut node_exec, 1.4); let mut v = vec![0.00755; 57]; v.append(&mut vec![0.002267, -0.002267, -0.002267]); assert_slope_feq!(res.0, v); // Decay some more let res = run_for_ms(&mut node_exec, 0.8); assert_slope_feq!(res.0, vec![-0.002267; 100]); // Retrigger right in the decay phase matrix.set_param(trig_p, SAtom::param(1.0)); let res = run_for_ms(&mut node_exec, 1.0); assert_slope_feq!(res.0, vec![ // Re-attack until we are at 1.0 again 0.007558584, 0.007558584, 0.007558584, 0.0075585246, 0.007558584, 0.007558584, 0.007558584, 0.007558584, 0.007558584, 0.007558584, 0.0007558465, // Restart decay after 1.0 was reached: -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.002267599, -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.002267599, -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.002267599, -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.002267599, -0.002267599, -0.0022675395, -0.002267599, -0.0022675395 ]); } #[test] fn check_node_ad_inp_sin() { let (node_conf, mut node_exec) = new_node_engine(); let mut matrix = Matrix::new(node_conf, 3, 3); let sin = NodeId::Sin(0); let ad = NodeId::Ad(0); let out = NodeId::Out(0); matrix.place(0, 0, Cell::empty(sin) .out(None, None, sin.out("sig"))); matrix.place(0, 1, Cell::empty(ad) .input(ad.inp("inp"), None, None) .out(None, None, ad.out("sig"))); matrix.place(0, 2, Cell::empty(out) .input(out.inp("ch1"), None, None)); matrix.sync().unwrap(); let trig_p = ad.inp_param("trig").unwrap(); let atk_p = ad.inp_param("atk").unwrap(); let dcy_p = ad.inp_param("dcy").unwrap(); // check if we have any frequencies resembling 440Hz matrix.set_param(trig_p, SAtom::param(1.0)); run_for_ms(&mut node_exec, 7.0); let fft = run_and_get_fft4096_now(&mut node_exec, 6); assert_eq!(fft[0], (420, 6)); assert_eq!(fft[1], (431, 6)); assert_eq!(fft[2], (441, 6)); assert_eq!(fft[3], (452, 6)); assert_eq!(fft[4], (463, 6)); // Next we test if lengthening the attack has // effect on the captured frequencies. matrix.set_param(trig_p, SAtom::param(0.0)); run_for_ms(&mut node_exec, 8.0); matrix.set_param(atk_p, SAtom::param(atk_p.norm(40.0))); matrix.set_param(trig_p, SAtom::param(1.0)); run_for_ms(&mut node_exec, 7.0); let fft = run_and_get_fft4096_now(&mut node_exec, 300); assert_eq!(fft[0], (431, 322)); assert_eq!(fft[1], (441, 360)); matrix.set_param(trig_p, SAtom::param(0.0)); run_for_ms(&mut node_exec, 8.0); // Next we test if lengthening the decay too has // effect on the captured frequencies. matrix.set_param(trig_p, SAtom::param(0.0)); run_for_ms(&mut node_exec, 8.0); matrix.set_param(dcy_p, SAtom::param(dcy_p.norm(40.0))); matrix.set_param(trig_p, SAtom::param(1.0)); run_for_ms(&mut node_exec, 7.0); let fft = run_and_get_fft4096_now(&mut node_exec, 300); assert_eq!(fft[0], (431, 489)); assert_eq!(fft[1], (441, 647)); assert_eq!(fft[2], (452, 398)); matrix.set_param(trig_p, SAtom::param(0.0)); run_for_ms(&mut node_exec, 8.0); } #[test] fn check_node_ad_shp_log() { let (node_conf, mut node_exec) = new_node_engine(); let mut matrix = Matrix::new(node_conf, 3, 3); let ad = NodeId::Ad(0); let out = NodeId::Out(0); matrix.place(0, 0, Cell::empty(ad) .out(None, None, ad.out("sig"))); matrix.place(0, 1, Cell::empty(out) .input(out.inp("ch1"), None, None)); matrix.sync().unwrap(); pset_n(&mut matrix, ad, "trig", 1.0); pset_n(&mut matrix, ad, "ashp", 1.0); pset_n(&mut matrix, ad, "dshp", 1.0); let res = run_for_ms(&mut node_exec, 25.0); assert_decimated_slope_feq!(res.0, 50, vec![ 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, // 44.1 per ms, attack is default 3.0ms (roughly 3 * 50 samples): 0.009243369, 0.003936231, 0.0020142794, // 44.1 per ms, decay is default 10.0ms (=> roughly 9 * 50 samples): -0.0006071329, -0.00067061186, -0.000752151, -0.0008612871, -0.0010163188, -0.0012571216, -0.0016934872, -0.0027971864, -0.027684271, 0.0, 0.0, 0.0, 0.0 ]); } #[test] fn check_node_ad_shp_exp() { let (node_conf, mut node_exec) = new_node_engine(); let mut matrix = Matrix::new(node_conf, 3, 3); let ad = NodeId::Ad(0); let out = NodeId::Out(0); matrix.place(0, 0, Cell::empty(ad) .out(None, None, ad.out("sig"))); matrix.place(0, 1, Cell::empty(out) .input(out.inp("ch1"), None, None)); matrix.sync().unwrap(); pset_n(&mut matrix, ad, "trig", 1.0); pset_n(&mut matrix, ad, "ashp", 0.0); pset_n(&mut matrix, ad, "dshp", 0.0); let res = run_for_ms(&mut node_exec, 25.0); assert_decimated_slope_feq!(res.0, 50, vec![ 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, // 44.1 per ms, attack is default 3.0ms (roughly 3 * 50 samples): 0.0009576017, 0.0044435486, 0.023418367, // 44.1 per ms, decay is default 10.0ms (=> roughly 9 * 50 samples): -0.0068960786, -0.004632175, -0.002927363, -0.0017025322, -0.00087817386, -0.0003750762, -0.000113890506, -0.0000153047, -0.0000000017186217, 0.0, 0.0, 0.0, 0.0 ]); } #[test] fn check_node_ad_eoet() { let (node_conf, mut node_exec) = new_node_engine(); let mut matrix = Matrix::new(node_conf, 3, 3); let ad = NodeId::Ad(0); let out = NodeId::Out(0); matrix.place(0, 0, Cell::empty(ad) .out(None, None, ad.out("sig"))); matrix.place(0, 1, Cell::empty(out) .input(out.inp("ch1"), None, None)); matrix.place(1, 0, Cell::empty(ad) .out(None, None, ad.out("eoet"))); matrix.place(1, 1, Cell::empty(out) .input(out.inp("ch2"), None, None)); matrix.sync().unwrap(); pset_n(&mut matrix, ad, "trig", 1.0); let res = run_for_ms(&mut node_exec, 25.0); // just make sure we are running an env: assert_decimated_slope_feq!(res.0, 50, vec![ 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, // 44.1 per ms, attack is default 3.0ms (roughly 3 * 50 samples): 0.007558584, 0.007558584, 0.007558584, // 44.1 per ms, decay is default 10.0ms (=> roughly 9 * 50 samples): -0.002267599, -0.0022675395, -0.002267599, -0.0022675395, -0.0022675693, -0.0022675693, -0.0022675842, -0.0022675693, -0.0022675726, 0.0, // <- EOET expected here 0.0, 0.0, 0.0 ]); // check if trigger appears: assert_decimated_feq!(res.1, 50, vec![ 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, // 44.1 per ms, attack is default 3.0ms (roughly 3 * 50 samples): 0.0, 0.0, 0.0, // 44.1 per ms, decay is default 10.0ms (=> roughly 9 * 50 samples): 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0, // <- End of envelope! 0.0, 0.0, 0.0 ]); } #[test] fn check_node_ad_atk_dcy() { let (node_conf, mut node_exec) = new_node_engine(); let mut matrix = Matrix::new(node_conf, 3, 3); let test = NodeId::Test(0); let ad = NodeId::Ad(0); let out = NodeId::Out(0); matrix.place(0, 0, Cell::empty(test) .out(None, None, test.out("sig"))); matrix.place(0, 1, Cell::empty(ad) .input(ad.inp("trig"), None, None) .out(None, None, ad.out("sig"))); matrix.place(0, 2, Cell::empty(out) .input(out.inp("ch1"), None, None)); matrix.sync().unwrap(); pset_d(&mut matrix, ad, "atk", 20.0); pset_n(&mut matrix, test, "p", 0.0); run_for_ms(&mut node_exec, 10.0); pset_n(&mut matrix, test, "p", 1.0); let res = run_for_ms(&mut node_exec, 10.0); assert_decimated_slope_feq!(res.0, 10, vec![0.001133787; 50]); pset_d(&mut matrix, ad, "atk", 50.0); let res = run_for_ms(&mut node_exec, 20.0); assert_decimated_slope_feq!(res.0, 40, vec![ // Slope is getting less and less steep, as expected: 0.0011277795, 0.0010179877, 0.00092345476, 0.00084143877, 0.0007699132, 0.0007072091, 0.0006517768, 0.00060266256, 0.00055885315, 0.0005196929, 0.00048446655, 0.00045353174, // Slope does not change after the "atk" change has been smoothed 0.00045353174, 0.00045353174, 0.00045353174, 0.00045347214, 0.00045353174, 0.00045353174, 0.00045353174, 0.00045353174, 0.00045347214, 0.00045353174, // attack phase ended, and now we decay: -0.002267599 ]); // check if decay stays stable: let res = run_for_ms(&mut node_exec, 2.0); assert_decimated_slope_feq!(res.0, 40, vec![-0.002267599; 3]); pset_d(&mut matrix, ad, "dcy", 200.0); let res = run_for_ms(&mut node_exec, 20.0); assert_decimated_slope_feq!(res.0, 40, vec![ // Slope is getting less and less steep, as expected: -0.002197802, -0.0012806058, -0.00083732605, -0.0005899668, -0.00043797493, -0.00033789873, -0.00026863813, -0.00021868944, -0.00018143654, -0.00015294552, -0.00013071299, // Slope does not change after the "dcy" change has been smoothed -0.000113368034, -0.000113368034, -0.00011339784, -0.00011339784, -0.000113368034, -0.000113368034, -0.00011339784, -0.000113368034, -0.000113368034, -0.00011339784, -0.000113368034, -0.000113368034 ]); } #[test] fn check_node_ad_mult() { let (node_conf, mut node_exec) = new_node_engine(); let mut matrix = Matrix::new(node_conf, 3, 3); let ad = NodeId::Ad(0); let out = NodeId::Out(0); matrix.place(0, 0, Cell::empty(ad) .out(None, None, ad.out("sig"))); matrix.place(0, 1, Cell::empty(out) .input(out.inp("ch1"), None, None)); matrix.sync().unwrap(); pset_n(&mut matrix, ad, "trig", 1.0); pset_n(&mut matrix, ad, "mult", 2.0); let res = run_for_ms(&mut node_exec, 2000.0); assert_decimated_slope_feq_fine!(res.0, 1800, vec![ 0.0, // looong attack: 0.00007558, 0.00007558, 0.00007558, 0.00007558, 0.00007558, 0.00007558, 0.00007558, // looong decay: -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, -0.000022709, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, ]); }