diff --git a/src/dsp/dattorro.rs b/src/dsp/dattorro.rs index 39fa9e1..12d0a3d 100644 --- a/src/dsp/dattorro.rs +++ b/src/dsp/dattorro.rs @@ -31,21 +31,31 @@ const DAT_LEFT_APF2_TIME_MS : f32 = 1800.0 / DAT_SAMPLES_PER_MS; const DAT_RIGHT_APF1_TIME_MS : f32 = 908.0 / DAT_SAMPLES_PER_MS; const DAT_RIGHT_APF2_TIME_MS : f32 = 2656.0 / DAT_SAMPLES_PER_MS; -// const long _kLeftApf1Time = 672; -// const long _kLeftDelay1Time = 4453; -// const long _kLeftApf2Time = 1800; -// const long _kLeftDelay2Time = 3720; -// -// const long _kRightApf1Time = 908; -// const long _kRightDelay1Time = 4217; -// const long _kRightApf2Time = 2656; -// const long _kRightDelay2Time = 3163; +const DAT_LEFT_DELAY1_TIME_MS : f32 = 4453.0 / DAT_SAMPLES_PER_MS; +const DAT_LEFT_DELAY2_TIME_MS : f32 = 3720.0 / DAT_SAMPLES_PER_MS; + +const DAT_RIGHT_DELAY1_TIME_MS : f32 = 4217.0 / DAT_SAMPLES_PER_MS; +const DAT_RIGHT_DELAY2_TIME_MS : f32 = 3163.0 / DAT_SAMPLES_PER_MS; + +const DAT_TAPS_TIME_MS : [f32; 7] = [ + 266.0 / DAT_SAMPLES_PER_MS, + 2974.0 / DAT_SAMPLES_PER_MS, + 1913.0 / DAT_SAMPLES_PER_MS, + 1996.0 / DAT_SAMPLES_PER_MS, + 1990.0 / DAT_SAMPLES_PER_MS, + 187.0 / DAT_SAMPLES_PER_MS, + 1066.0 / DAT_SAMPLES_PER_MS, +]; + +const DAT_LFO_FREQS_HZ : [f32; 4] = [ 0.1, 0.15, 0.12, 0.18 ]; const DAT_INPUT_DIFFUSION1 : f32 = 0.75; const DAT_INPUT_DIFFUSION2 : f32 = 0.625; const DAT_PLATE_DIFFUSION1 : f32 = 0.7; const DAT_PLATE_DIFFUSION2 : f32 = 0.5; +const DAT_LFO_EXCURSION_MS : f32 = 16.0 / DAT_SAMPLES_PER_MS; + use crate::dsp::helpers::{ AllPass, TriSawLFO, @@ -67,21 +77,20 @@ pub struct DattorroReverb { input_lpf: OnePoleLPF, pre_delay: DelayBuffer, - input_apfs: [(AllPass, f32); 4], + input_apfs: [(AllPass, f32, f32); 4], - apf1: [(AllPass, f32); 2], + apf1: [(AllPass, f32, f32); 2], hpf: [OnePoleHPF; 2], lpf: [OnePoleLPF; 2], - apf2: [AllPass; 2], - delay1: [DelayBuffer; 2], - delay2: [DelayBuffer; 2], - - time_scale_factor: f32, + apf2: [(AllPass, f32, f32); 2], + delay1: [(DelayBuffer, f32); 2], + delay2: [(DelayBuffer, f32); 2], } pub trait DattorroReverbParams { /// Time for the pre-delay of the reverb. fn pre_delay_time_s(&self) -> f32; + fn time_scale(&self) -> f32; } impl DattorroReverb { @@ -98,15 +107,14 @@ impl DattorroReverb { input_lpf: OnePoleLPF::new(), pre_delay: DelayBuffer::new(), - input_apfs: [(AllPass::new(), 0.0); 4], + input_apfs: Default::default(), - apf1: [(AllPass::new(), 0.0); 2], + apf1: Default::default(), hpf: [OnePoleHPF::new(); 2], lpf: [OnePoleLPF::new(); 2], - apf2: [AllPass::new(); 2], - delay1: [DelayBuffer::new(); 2], - delay2: [DelayBuffer::new(); 2], - time_scale_factor: 1.0, + apf2: Default::default(), + delay1: Default::default(), + delay2: Default::default(), }; this.reset(); @@ -115,20 +123,64 @@ impl DattorroReverb { } pub fn reset(&mut self) { + self.input_lpf.reset(); + self.input_hpf.reset(); + self.input_lpf.set_freq(22000.0); self.input_hpf.set_freq(0.0); - self.input_apfs[0].1 = DAT_INPUT_APF_TIMES_MS[0]; - self.input_apfs[1].1 = DAT_INPUT_APF_TIMES_MS[1]; - self.input_apfs[2].1 = DAT_INPUT_APF_TIMES_MS[2]; - self.input_apfs[3].1 = DAT_INPUT_APF_TIMES_MS[3]; + self.input_apfs[0] = + (AllPass::new(), DAT_INPUT_APF_TIMES_MS[0], DAT_INPUT_DIFFUSION1); + self.input_apfs[1] = + (AllPass::new(), DAT_INPUT_APF_TIMES_MS[1], DAT_INPUT_DIFFUSION1); + self.input_apfs[2] = + (AllPass::new(), DAT_INPUT_APF_TIMES_MS[2], DAT_INPUT_DIFFUSION2); + self.input_apfs[3] = + (AllPass::new(), DAT_INPUT_APF_TIMES_MS[3], DAT_INPUT_DIFFUSION2); + + self.apf1[0] = + (AllPass::new(), DAT_LEFT_APF1_TIME_MS, -DAT_PLATE_DIFFUSION1); + self.apf1[1] = + (AllPass::new(), DAT_RIGHT_APF1_TIME_MS, -DAT_PLATE_DIFFUSION1); + self.apf2[0] = + (AllPass::new(), DAT_LEFT_APF2_TIME_MS, -DAT_PLATE_DIFFUSION2); + self.apf2[1] = + (AllPass::new(), DAT_RIGHT_APF2_TIME_MS, -DAT_PLATE_DIFFUSION2); + + self.delay1[0] = (DelayBuffer::new(), DAT_LEFT_DELAY1_TIME_MS); + self.delay1[1] = (DelayBuffer::new(), DAT_RIGHT_DELAY1_TIME_MS); + self.delay2[0] = (DelayBuffer::new(), DAT_LEFT_DELAY2_TIME_MS); + self.delay2[1] = (DelayBuffer::new(), DAT_RIGHT_DELAY2_TIME_MS); + + self.lpf[0].reset(); + self.lpf[1].reset(); + self.lpf[0].set_freq(10000.0); + self.lpf[1].set_freq(10000.0); + + self.hpf[0].reset(); + self.hpf[1].reset(); + self.hpf[0].set_freq(0.0); + self.hpf[1].set_freq(0.0); + + self.lfos[0].set(DAT_LFO_FREQS_HZ[0], 0.5); + self.lfos[0].set_phase_offs(0.0); + self.lfos[0].reset(); + self.lfos[1].set(DAT_LFO_FREQS_HZ[1], 0.5); + self.lfos[1].set_phase_offs(0.25); + self.lfos[1].reset(); + self.lfos[2].set(DAT_LFO_FREQS_HZ[2], 0.5); + self.lfos[2].set_phase_offs(0.5); + self.lfos[2].reset(); + self.lfos[3].set(DAT_LFO_FREQS_HZ[3], 0.5); + self.lfos[3].set_phase_offs(0.75); + self.lfos[3].reset(); self.set_time_scale(1.0); } #[inline] pub fn set_time_scale(&mut self, scale: f32) { - if (self.last_scale - scale).abs() > std::f32::consts::EPSILON { + if (self.last_scale - scale).abs() > std::f32::EPSILON { let scale = scale.max(0.0001); self.last_scale = scale; @@ -140,9 +192,16 @@ impl DattorroReverb { } pub fn set_sample_rate(&mut self, srate: f32) { - self.time_scale_factor = srate / DAT_SAMPLE_RATE; } - pub fn process(&mut self, params: &mut dyn DattorroReverbParams, input: f32) -> (f32, f32) { + pub fn process( + &mut self, + params: &mut dyn DattorroReverbParams, + input_l: f32, input_r: f32 + ) -> (f32, f32) + { + self.set_time_scale(params.time_scale()); + + (0.0, 0.0) } } diff --git a/src/dsp/helpers.rs b/src/dsp/helpers.rs index 55e1293..236e548 100644 --- a/src/dsp/helpers.rs +++ b/src/dsp/helpers.rs @@ -655,7 +655,7 @@ impl TriggerSampleClock { /// Default size of the delay buffer: 5 seconds at 8 times 48kHz const DEFAULT_DELAY_BUFFER_SAMPLES : usize = 8 * 48000 * 5; -#[derive(Debug, Clone)] +#[derive(Debug, Clone, Default)] pub struct DelayBuffer { data: Vec, wr: usize, @@ -748,7 +748,7 @@ impl DelayBuffer { /// Default size of the delay buffer: 1 seconds at 8 times 48kHz const DEFAULT_ALLPASS_COMB_SAMPLES : usize = 8 * 48000; -#[derive(Debug, Clone)] +#[derive(Debug, Clone, Default)] pub struct AllPass { delay: DelayBuffer, } @@ -1289,7 +1289,7 @@ pub fn process_stilson_moog( // translated from Odin 2 Synthesizer Plugin // Copyright (C) 2020 TheWaveWarden // under GPLv3 or any later -#[derive(Debug, Clone)] +#[derive(Debug, Clone, Copy)] pub struct DCBlockFilter { xm1: f64, ym1: f64, @@ -1786,6 +1786,8 @@ pub struct TriSawLFO { /// Precomputed rise/fall rate of the LFO. rise_r: f64, fall_r: f64, + /// Initial phase offset. + init_phase: f64, } impl TriSawLFO { @@ -1798,11 +1800,17 @@ impl TriSawLFO { freq: 1.0, fall_r: 0.0, rise_r: 0.0, + init_phase: 0.0, }; this.recalc(); this } + pub fn set_phase_offs(&mut self, phase: f64) { + self.init_phase = phase; + self.phase = phase; + } + #[inline] fn recalc(&mut self) { self.rev = self.rev.clamp(0.0001, 0.999); @@ -1816,7 +1824,7 @@ impl TriSawLFO { } pub fn reset(&mut self) { - self.phase = 0.0; + self.phase = self.init_phase; self.rev = 0.5; self.rising = true; }