HexoDSP/src/dsp/node_ad.rs

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// Copyright (c) 2021 Weird Constructor <weirdconstructor@gmail.com>
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// This file is a part of HexoDSP. Released under GPL-3.0-or-later.
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// See README.md and COPYING for details.
use synfx_dsp::{sqrt4_to_pow4, TrigSignal, Trigger};
use crate::dsp::{
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DspNode, GraphAtomData, GraphFun, LedPhaseVals, NodeContext, NodeId, ProcBuf, SAtom,
};
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use crate::nodes::{NodeAudioContext, NodeExecContext};
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#[macro_export]
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macro_rules! fa_ad_mult {
($formatter: expr, $v: expr, $denorm_v: expr) => {{
let s = match ($v.round() as usize) {
0 => "x1",
1 => "x10",
2 => "x100",
_ => "?",
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};
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write!($formatter, "{}", s)
}};
}
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/// A simple amplifier
#[derive(Debug, Clone)]
pub struct Ad {
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inc: f64,
stage: u8,
samples_ms: f64,
value: f64,
last_time: f32,
trig: Trigger,
trig_sig: TrigSignal,
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}
impl Ad {
pub fn new(_nid: &NodeId) -> Self {
Self {
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inc: 0.0,
stage: 0,
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samples_ms: 44.1,
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value: 0.0,
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last_time: -1.0,
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trig: Trigger::new(),
trig_sig: TrigSignal::new(),
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}
}
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pub const inp: &'static str =
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"Ad inp\nSignal input. If you don't connect this, and set this to 1.0 \
this will act as envelope signal generator. But you can also just \
route a signal directly through this of course.\nRange: (-1..1)\n";
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pub const trig: &'static str =
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"Ad trig\nTrigger input that starts the attack phase.\nRange: (0..1)\n";
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pub const atk: &'static str =
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"Ad atk\nAttack time of the envelope. You can extend the maximum \
range of this with the 'mult' setting.\nRange: (0..1)\n";
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pub const dcy: &'static str = "Ad atk\nDecay time of the envelope. You can extend the maximum \
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range of this with the 'mult' setting.\nRange: (0..1)\n";
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pub const ashp: &'static str = "Ad ashp\nAttack shape. This allows you to change the shape \
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of the attack stage from a logarithmic, to a linear and to an \
exponential shape.\nRange: (0..1)\n";
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pub const dshp: &'static str = "Ad dshp\nDecay shape. This allows you to change the shape \
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of the decay stage from a logarithmic, to a linear and to an \
exponential shape.\nRange: (0..1)\n";
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pub const mult: &'static str = "Ad mult\nAttack and Decay time range multiplier. \
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This will extend the maximum range of the 'atk' and 'dcy' parameters.";
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pub const sig: &'static str =
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"Ad sig\nEnvelope signal output. If a signal is sent to the 'inp' port, \
you will receive an attenuated signal here. If you set 'inp' to a \
fixed value (for instance 1.0), this will output an envelope signal \
in the range 0.0 to 'inp' (1.0).\nRange: (-1..1)\n";
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pub const eoet: &'static str =
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"Ad eoet\nEnd of envelope trigger. This output sends a trigger once \
the end of the decay stage has been reached.\nRange: (0..1)";
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pub const DESC: &'static str = r#"Attack-Decay Envelope
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This is a simple envelope offering an attack time and decay time with a shape parameter.
You can use it as envelope generator to modulate other inputs or process a signal with it directly.
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"#;
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pub const HELP: &'static str = r#"Ad - Attack-Decay Envelope
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This simple two stage envelope with attack and decay offers shape parameters
for each stage. The attack and decay times can be extended using the 'mult'
setting.
The 'inp' can either be used to process a signal, or set the target output
value of the envelope. In the latter case this node is just a simple
envelope generator, with which you can generate control signals to modulate
other inputs.
With the 'eoet' output you can either trigger other envelopes or via
'FbWr'/'FbRd' retrigger the envelope.
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"#;
}
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impl DspNode for Ad {
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fn outputs() -> usize {
1
}
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fn set_sample_rate(&mut self, srate: f32) {
self.samples_ms = srate as f64 / 1000.0;
self.trig_sig.set_sample_rate(srate);
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}
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fn reset(&mut self) {
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self.stage = 0;
self.value = 0.0;
self.inc = 0.0;
self.last_time = -1.0;
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self.trig_sig.reset();
self.trig.reset();
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}
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#[inline]
fn process<T: NodeAudioContext>(
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&mut self,
ctx: &mut T,
_ectx: &mut NodeExecContext,
_nctx: &NodeContext,
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atoms: &[SAtom],
inputs: &[ProcBuf],
outputs: &mut [ProcBuf],
ctx_vals: LedPhaseVals,
) {
use crate::dsp::{at, denorm, inp, out};
let inp = inp::Ad::inp(inputs);
let trig = inp::Ad::trig(inputs);
let atk = inp::Ad::atk(inputs);
let dcy = inp::Ad::dcy(inputs);
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let atk_shape = inp::Ad::ashp(inputs);
let dcy_shape = inp::Ad::dshp(inputs);
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let mult = at::Ad::mult(atoms);
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// block start:
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let (mut shape_src, mut inc_time_src, mut target, mut delta) = match self.stage {
1 => (atk_shape, atk, 1.0, 1.0),
2 => (dcy_shape, dcy, 0.0, -1.0),
_ => (atk_shape, atk, 0.0, 0.0),
};
let mult: f64 = match mult.i() {
1 => 10.0,
2 => 100.0,
_ => 1.0,
};
// let mut cnt : usize = 0;
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for frame in 0..ctx.nframes() {
if self.trig.check_trigger(denorm::Ad::trig(trig, frame)) {
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//d// println!("RETRIGGER!");
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self.stage = 1;
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self.last_time = -1.0;
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target = 1.0;
delta = 1.0;
shape_src = atk_shape;
inc_time_src = atk;
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}
let cur_time = denorm::Ad::atk(inc_time_src, frame);
if self.last_time != cur_time {
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self.inc = if cur_time <= 0.0001 {
delta
} else {
delta / ((cur_time as f64) * mult * self.samples_ms)
};
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self.last_time = cur_time;
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// if cnt % 32 == 0 {
// println!("** v={:8.3}, inc={:8.3}, tar={:8.3}, time={:8.3}",
// self.value, self.inc, target, self.last_time);
// }
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}
self.value += self.inc;
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let shape = denorm::Ad::ashp(shape_src, frame).clamp(0.0, 1.0);
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// if cnt % 32 == 0 {
// println!("v={:8.3}, inc={:8.3}, tar={:8.3}, time={:8.3}",
// self.value, self.inc, target, self.last_time);
// }
// cnt += 1;
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match self.stage {
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1 => {
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if self.value >= (target - 0.0001) {
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self.stage = 2;
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self.last_time = -1.0;
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self.value = target;
target = 0.0;
delta = -1.0;
shape_src = dcy_shape;
inc_time_src = dcy;
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}
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}
2 => {
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if self.value <= (target + 0.0001) {
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self.stage = 0;
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self.last_time = -1.0;
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self.value = target;
target = 0.0;
delta = 0.0;
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self.trig_sig.trigger();
}
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}
_ => {}
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}
let in_val = denorm::Ad::inp(inp, frame);
let out = out::Ad::sig(outputs);
//d// println!("VAL in={}, val={} shp: {}=>{}", in_val, self.value, shape,
//d// sqrt4_to_pow4(1.0, shape));
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out.write(frame, in_val * sqrt4_to_pow4(self.value.clamp(0.0, 1.0) as f32, shape));
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let eoet = out::Ad::eoet(outputs);
eoet.write(frame, self.trig_sig.next());
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}
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ctx_vals[0].set(self.value as f32);
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// ctx_vals[1].set(self.phase / self. + self.stage * );
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}
fn graph_fun() -> Option<GraphFun> {
Some(Box::new(|gd: &dyn GraphAtomData, _init: bool, x: f32, xn: f32| -> f32 {
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let atk_idx = NodeId::Ad(0).inp_param("atk").unwrap().inp();
let dcy_idx = NodeId::Ad(0).inp_param("dcy").unwrap().inp();
let ashp_idx = NodeId::Ad(0).inp_param("ashp").unwrap().inp();
let dshp_idx = NodeId::Ad(0).inp_param("dshp").unwrap().inp();
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let atk = gd.get_norm(atk_idx as u32);
let dcy = gd.get_norm(dcy_idx as u32);
let ashp = gd.get_denorm(ashp_idx as u32);
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let dshp = gd.get_denorm(dshp_idx as u32);
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let a = atk * 0.5;
let d = dcy * 0.5;
if x <= a {
if xn > a {
1.0
} else if a < 0.0001 {
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0.0
} else {
let delta = 1.0 - ((a - x) / a);
sqrt4_to_pow4(delta, ashp)
}
} else if (x - a) <= d {
if d < 0.0001 {
0.0
} else {
let x = x - a;
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let delta = (d - x) / d;
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sqrt4_to_pow4(delta, dshp)
}
} else {
0.0
}
}))
}
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}