Move curve calculation to a dedicated struct
So we can reuse this in the analyzer.
This commit is contained in:
parent
2de1fd563b
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@ -20,6 +20,7 @@ use std::sync::atomic::{AtomicBool, Ordering};
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use std::sync::Arc;
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use crate::analyzer::AnalyzerData;
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use crate::curve::{Curve, CurveParams};
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use crate::SpectralCompressorParams;
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// These are the parameter name prefixes used for the downwards and upwards compression parameters.
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@ -983,32 +984,34 @@ impl CompressorBank {
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/// are updated in accordance to the atomic flags set on this struct.
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fn update_if_needed(&mut self, params: &SpectralCompressorParams) {
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// The threshold curve is a polynomial in log-log (decibels-octaves) space
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let intercept = params.threshold.threshold_db.value();
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// The cheeky 3 additional dB/octave attenuation is to match pink noise with the default
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// settings. When using sidechaining we explicitly don't want this because the curve should
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// be a flat offset to the sidechain input at the default settings.
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let slope = match params.threshold.mode.value() {
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ThresholdMode::Internal => params.threshold.curve_slope.value() - 3.0,
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ThresholdMode::SidechainMatch | ThresholdMode::SidechainCompress => {
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params.threshold.curve_slope.value()
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}
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let curve_params = CurveParams {
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intercept: params.threshold.threshold_db.value(),
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center_frequency: params.threshold.center_frequency.value(),
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// The cheeky 3 additional dB/octave attenuation is to match pink noise with the
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// default settings. When using sidechaining we explicitly don't want this because
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// the curve should be a flat offset to the sidechain input at the default settings.
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slope: match params.threshold.mode.value() {
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ThresholdMode::Internal => params.threshold.curve_slope.value() - 3.0,
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ThresholdMode::SidechainMatch | ThresholdMode::SidechainCompress => {
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params.threshold.curve_slope.value()
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}
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},
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curve: params.threshold.curve_curve.value(),
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};
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let curve = params.threshold.curve_curve.value();
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let log2_center_freq = params.threshold.center_frequency.value().log2();
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let curve = Curve::new(&curve_params);
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if self
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.should_update_downwards_thresholds
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.compare_exchange(true, false, Ordering::SeqCst, Ordering::SeqCst)
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.is_ok()
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{
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let intercept = intercept + params.compressors.downwards.threshold_offset_db.value();
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let downwards_intercept = params.compressors.downwards.threshold_offset_db.value();
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for (log2_freq, threshold_db) in self
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.log2_freqs
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.iter()
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.zip(self.downwards_thresholds_db.iter_mut())
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{
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let offset = log2_freq - log2_center_freq;
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*threshold_db = intercept + (slope * offset) + (curve * offset * offset);
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*threshold_db = curve.evaluate_log2(*log2_freq) + downwards_intercept;
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}
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}
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@ -1017,14 +1020,13 @@ impl CompressorBank {
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.compare_exchange(true, false, Ordering::SeqCst, Ordering::SeqCst)
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.is_ok()
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{
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let intercept = intercept + params.compressors.upwards.threshold_offset_db.value();
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let upwards_intercept = params.compressors.upwards.threshold_offset_db.value();
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for (log2_freq, threshold_db) in self
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.log2_freqs
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.iter()
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.zip(self.upwards_thresholds_db.iter_mut())
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{
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let offset = log2_freq - log2_center_freq;
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*threshold_db = intercept + (slope * offset) + (curve * offset * offset);
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*threshold_db = curve.evaluate_log2(*log2_freq) + upwards_intercept;
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}
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}
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61
plugins/spectral_compressor/src/curve.rs
Normal file
61
plugins/spectral_compressor/src/curve.rs
Normal file
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@ -0,0 +1,61 @@
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//! Abstractions for the parameterized threshold curve.
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//!
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//! This was previously computed directly inside of the `CompressorBank` but this makes it easier to
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//! reuse it when drawing the GUI.
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/// Parameters for a curve, similar to the fields found in `ThresholdParams` but using plain floats
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/// instead of parameters.
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#[derive(Debug, Clone, Copy)]
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pub struct CurveParams {
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/// The compressor threshold at the center frequency. When sidechaining is enabled, the input
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/// signal is gained by the inverse of this value. This replaces the input gain in the original
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/// Spectral Compressor. In the polynomial below, this is the intercept.
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pub intercept: f32,
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/// The center frqeuency for the target curve when sidechaining is not enabled. The curve is a
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/// polynomial `threshold_db + curve_slope*x + curve_curve*(x^2)` that evaluates to a decibel
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/// value, where `x = log2(center_frequency) - log2(bin_frequency)`. In other words, this is
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/// evaluated in the log/log domain for decibels and octaves.
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pub center_frequency: f32,
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/// The slope for the curve, in the log/log domain. See the polynomial above.
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pub slope: f32,
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/// The, uh, 'curve' for the curve, in the logarithmic domain. This is the third coefficient in
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/// the quadratic polynomial and controls the parabolic behavior. Positive values turn the curve
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/// into a v-shaped curve, while negative values attenuate everything outside of the center
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/// frequency. See the polynomial above.
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pub curve: f32,
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}
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/// Evaluates the quadratic threshold curve. This used to be calculated directly inside of the
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/// compressor bank since it's so simple, but the editor also needs to compute this so it makes
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/// sense to deduplicate it a bit.
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///
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/// The curve is evaluated in log-log space (so with octaves being the independent variable and gain
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/// in decibels being the output of the equation).
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pub struct Curve<'a> {
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params: &'a CurveParams,
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/// The 2-logarithm of [`CurveParams::cemter_frequency`].
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log2_center_frequency: f32,
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}
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impl<'a> Curve<'a> {
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pub fn new(params: &'a CurveParams) -> Self {
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Self {
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params,
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log2_center_frequency: params.center_frequency.log2(),
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}
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}
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/// Evaluate the curve for the 2-logarithm of the frequency value. This can be used as an
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/// optimization to avoid computing these logarithms all the time.
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#[inline]
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pub fn evaluate_log2(&self, log2_freq: f32) -> f32 {
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let offset = log2_freq - self.log2_center_frequency;
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self.params.intercept + (self.params.slope * offset) + (self.params.curve * offset * offset)
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}
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/// Evaluate the curve for a value in Hertz.
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#[inline]
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pub fn evaluate_plain(&self, freq: f32) -> f32 {
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self.evaluate_log2(freq.log2())
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}
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}
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@ -28,6 +28,7 @@ use triple_buffer::TripleBuffer;
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mod analyzer;
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mod compressor_bank;
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mod curve;
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mod dry_wet_mixer;
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mod editor;
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