diff --git a/plugins/spectral_compressor/src/compressor_bank.rs b/plugins/spectral_compressor/src/compressor_bank.rs index f5ee415a..b477c913 100644 --- a/plugins/spectral_compressor/src/compressor_bank.rs +++ b/plugins/spectral_compressor/src/compressor_bank.rs @@ -89,40 +89,45 @@ pub struct ThresholdParams { threshold_db: FloatParam, } -#[derive(Params)] +/// Contains the compressor parameters for both the upwards and downwards compressor banks. This has +/// a manual `Params` trait implementation to avoid copy-pasting the parameters between the two +/// compressors and making mistakes that way pub struct CompressorBankParams { - // TODO: Target curve options - /// The downwards compression threshold relative to the target curve. - #[id = "thresh_down_off"] - downwards_threshold_offset_db: FloatParam, - /// The downwards compression ratio. At 1.0 the downwards compressor is disengaged. - #[id = "ratio_down"] - downwards_ratio: FloatParam, - /// The downwards compression knee width, in decibels. - #[id = "knee_down"] - downwards_knee_width_db: FloatParam, + downwards: CompressorParams, + upwards: CompressorParams, +} - /// The upwards compression threshold relative to the target curve. - #[id = "thresh_up_off"] - upwards_threshold_offset_db: FloatParam, - /// The upwards compression ratio. At 1.0 the upwards compressor is disengaged. - #[id = "ratio_up"] - upwards_ratio: FloatParam, - /// The upwards compression knee width, in decibels. - #[id = "knee_up"] - upwards_knee_width_db: FloatParam, +/// This struct contains the parameters for either the upward or downward compressors. The `Params` +/// trait is implemented manually to avoid copy-pasting. Both versions will have a parameter ID and +/// a parameter name prefix to distinguish them. +pub struct CompressorParams { + /// The compression threshold relative to the target curve. + threshold_offset_db: FloatParam, + /// The compression ratio. At 1.0 the compressor is disengaged. + ratio: FloatParam, + /// The compression knee width, in decibels. + knee_width_db: FloatParam, /// A `[0, 1]` scaling factor that causes the compressors for the higher registers to have lower /// ratios than the compressors for the lower registers. The scaling is applied logarithmically /// rather than linearly over the compressors. If this is set to 1.0, then the ratios will be /// the same for every compressor. - /// - /// TODO: Decide on whether or not this should only apply on upwards ratios, or if we may need - /// separate controls for both - #[id = "ratio_hi_freq_rolloff"] high_freq_ratio_rolloff: FloatParam, } +unsafe impl Params for CompressorBankParams { + fn param_map(&self) -> Vec<(String, ParamPtr, String)> { + // The `Params` trait here is implemented manually as an alternative to copy-pasting all of + // the parameters and potentially making mistakes + let mut param_map = self + .downwards + .param_map_with_prefix("downwards_", "downwards"); + param_map.append(&mut self.upwards.param_map_with_prefix("upwards_", "upwards")); + + param_map + } +} + impl ThresholdParams { /// Create a new [`ThresholdParams`] object. Changing any of the threshold parameters causes the /// passed compressor bank's thresholds to be updated. @@ -190,47 +195,55 @@ impl ThresholdParams { } impl CompressorBankParams { - /// Create a new [`CompressorBankParams`] object. Changing any of the threshold or ratio - /// parameters causes the passed compressor bank's parameters to be updated. - pub fn new(compressor_bank: &CompressorBank) -> Self { - let should_update_downwards_thresholds = - compressor_bank.should_update_downwards_thresholds.clone(); - let set_update_downwards_thresholds = - Arc::new(move |_| should_update_downwards_thresholds.store(true, Ordering::SeqCst)); - let should_update_upwards_thresholds = - compressor_bank.should_update_upwards_thresholds.clone(); - let set_update_upwards_thresholds = - Arc::new(move |_| should_update_upwards_thresholds.store(true, Ordering::SeqCst)); - let should_update_downwards_ratios = compressor_bank.should_update_downwards_ratios.clone(); - let set_update_downwards_ratios = - Arc::new(move |_| should_update_downwards_ratios.store(true, Ordering::SeqCst)); - let should_update_upwards_ratios = compressor_bank.should_update_upwards_ratios.clone(); - let set_update_upwards_ratios = - Arc::new(move |_| should_update_upwards_ratios.store(true, Ordering::SeqCst)); - - let should_update_downwards_ratios = compressor_bank.should_update_downwards_ratios.clone(); - let should_update_upwards_ratios = compressor_bank.should_update_upwards_ratios.clone(); - let set_update_both_ratios = Arc::new(move |_| { - should_update_downwards_ratios.store(true, Ordering::SeqCst); - should_update_upwards_ratios.store(true, Ordering::SeqCst); - }); - + /// Create compressor bank parameter objects for both the downwards and upwards compressors of + /// `compressor`. Changing the ratio and threshold parameters will cause the compressor to + /// recompute its values on the next processing cycle. + pub fn new(compressor: &CompressorBank) -> Self { CompressorBankParams { + downwards: CompressorParams::new( + "Downwards", + compressor.should_update_downwards_thresholds.clone(), + compressor.should_update_downwards_ratios.clone(), + ), + upwards: CompressorParams::new( + "Upwards", + compressor.should_update_upwards_thresholds.clone(), + compressor.should_update_upwards_ratios.clone(), + ), + } + } +} + +impl CompressorParams { + /// Create a new [`CompressorBankParams`] object with a prefix for all parameter names. Changing + /// any of the threshold or ratio parameters causes the passed atomics to be updated. These + /// should be taken from a [`CompressorBank`] so the parameters are linked to it. + pub fn new( + name_prefix: &str, + should_update_thresholds: Arc, + should_update_ratios: Arc, + ) -> Self { + let set_update_thresholds = + Arc::new(move |_| should_update_thresholds.store(true, Ordering::SeqCst)); + let set_update_ratios = + Arc::new(move |_| should_update_ratios.store(true, Ordering::SeqCst)); + + CompressorParams { // TODO: Set nicer default values for these things // As explained above, these offsets are relative to the target curve - downwards_threshold_offset_db: FloatParam::new( - "Downwards Offset", + threshold_offset_db: FloatParam::new( + format!("{name_prefix} Offset"), 0.0, FloatRange::Linear { min: -50.0, max: 50.0, }, ) - .with_callback(set_update_downwards_thresholds) + .with_callback(set_update_thresholds) .with_unit(" dB") .with_step_size(0.1), - downwards_ratio: FloatParam::new( - "Downwards Ratio", + ratio: FloatParam::new( + format!("{name_prefix} Ratio"), 1.0, FloatRange::Skewed { min: 1.0, @@ -238,69 +251,68 @@ impl CompressorBankParams { factor: FloatRange::skew_factor(-2.0), }, ) - .with_callback(set_update_downwards_ratios) + .with_callback(set_update_ratios.clone()) .with_step_size(0.01) .with_value_to_string(formatters::v2s_compression_ratio(2)) .with_string_to_value(formatters::s2v_compression_ratio()), - downwards_knee_width_db: FloatParam::new( - "Downwards Knee", - 0.0, - FloatRange::Skewed { - min: 0.0, - max: 36.0, - factor: FloatRange::skew_factor(-1.0), - }, - ) - .with_unit(" dB") - .with_step_size(0.1), - - upwards_threshold_offset_db: FloatParam::new( - "Upwards Offset", - 0.0, - FloatRange::Linear { - min: -50.0, - max: 50.0, - }, - ) - .with_callback(set_update_upwards_thresholds) - .with_unit(" dB") - .with_step_size(0.1), - upwards_ratio: FloatParam::new( - "Upwards Ratio", - 1.0, - FloatRange::Skewed { - min: 1.0, - max: 300.0, - factor: FloatRange::skew_factor(-2.0), - }, - ) - .with_callback(set_update_upwards_ratios) - .with_step_size(0.01) - .with_value_to_string(formatters::v2s_compression_ratio(2)) - .with_string_to_value(formatters::s2v_compression_ratio()), - upwards_knee_width_db: FloatParam::new( - "Upwards Knee", - 0.0, - FloatRange::Skewed { - min: 0.0, - max: 36.0, - factor: FloatRange::skew_factor(-1.0), - }, - ) - .with_unit(" dB") - .with_step_size(0.1), - high_freq_ratio_rolloff: FloatParam::new( - "High-freq Ratio Rolloff", + format!("{name_prefix} Hi-Freq Rolloff"), 0.5, FloatRange::Linear { min: 0.0, max: 1.0 }, ) - .with_callback(set_update_both_ratios) + .with_callback(set_update_ratios) .with_unit("%") .with_value_to_string(formatters::v2s_f32_percentage(0)) .with_string_to_value(formatters::s2v_f32_percentage()), + knee_width_db: FloatParam::new( + format!("{name_prefix} Knee"), + 0.0, + FloatRange::Skewed { + min: 0.0, + max: 36.0, + factor: FloatRange::skew_factor(-1.0), + }, + ) + .with_unit(" dB") + .with_step_size(0.1), } } + + /// Create a parameter map for this object with a given prefix and group name. + /// + /// # Safety + /// + /// While this function in and of itself it not unsafe (it just creates pointers), these + /// pointers can only be safely dereferences and passed to functions that will derefernce them + /// if this object is not moved. + pub fn param_map_with_prefix( + &self, + prefix: &str, + group: &str, + ) -> Vec<(String, ParamPtr, String)> { + vec![ + ( + format!("{prefix}threshold_offset"), + self.threshold_offset_db.as_ptr(), + String::from(group), + ), + ( + format!("{prefix}ratio"), + self.ratio.as_ptr(), + String::from(group), + ), + ( + format!("{prefix}knee"), + self.knee_width_db.as_ptr(), + String::from(group), + ), + ( + format!("{prefix}high_freq_rolloff"), + self.high_freq_ratio_rolloff.as_ptr(), + String::from(group), + ), + ] + } } impl CompressorBank { @@ -477,9 +489,9 @@ impl CompressorBank { // bandwidths, the middle values needs to be pushed more towards the post-knee threshold // than with lower knee values. let downwards_knee_scaling_factor = - ((params.compressors.downwards_knee_width_db.value * 2.0) + 2.0).log2() - 1.0; + ((params.compressors.downwards.knee_width_db.value * 2.0) + 2.0).log2() - 1.0; let upwards_knee_scaling_factor = - ((params.compressors.upwards_knee_width_db.value * 2.0) + 2.0).log2() - 1.0; + ((params.compressors.upwards.knee_width_db.value * 2.0) + 2.0).log2() - 1.0; // Is this what they mean by zip and and ship it? let downwards_values = self @@ -536,7 +548,10 @@ impl CompressorBank { let curve = params.threshold.curve_curve.value; let log2_center_freq = params.threshold.center_frequency.value.log2(); - let high_freq_ratio_rolloff = params.compressors.high_freq_ratio_rolloff.value; + let downwards_high_freq_ratio_rolloff = + params.compressors.downwards.high_freq_ratio_rolloff.value; + let upwards_high_freq_ratio_rolloff = + params.compressors.upwards.high_freq_ratio_rolloff.value; let log2_nyquist_freq = self .log2_freqs .last() @@ -547,7 +562,7 @@ impl CompressorBank { .compare_exchange(true, false, Ordering::SeqCst, Ordering::SeqCst) .is_ok() { - let intercept = intercept + params.compressors.downwards_threshold_offset_db.value; + let intercept = intercept + params.compressors.downwards.threshold_offset_db.value; for (log2_freq, threshold) in self .log2_freqs .iter() @@ -566,7 +581,7 @@ impl CompressorBank { .compare_exchange(true, false, Ordering::SeqCst, Ordering::SeqCst) .is_ok() { - let intercept = intercept + params.compressors.upwards_threshold_offset_db.value; + let intercept = intercept + params.compressors.upwards.threshold_offset_db.value; for (log2_freq, threshold) in self .log2_freqs .iter() @@ -585,8 +600,8 @@ impl CompressorBank { { // If the high-frequency rolloff is enabled then higher frequency bins will have their // ratios reduced to reduce harshness. This follows the octave scale. - let target_ratio_recip = params.compressors.downwards_ratio.value.recip(); - if high_freq_ratio_rolloff == 0.0 { + let target_ratio_recip = params.compressors.downwards.ratio.value.recip(); + if downwards_high_freq_ratio_rolloff == 0.0 { self.downwards_ratio_recips.fill(target_ratio_recip); } else { for (log2_freq, ratio) in self @@ -595,7 +610,7 @@ impl CompressorBank { .zip(self.downwards_ratio_recips.iter_mut()) { let octave_fraction = log2_freq / log2_nyquist_freq; - let rolloff_t = octave_fraction * high_freq_ratio_rolloff; + let rolloff_t = octave_fraction * downwards_high_freq_ratio_rolloff; // If the octave fraction times the rolloff amount is high, then this should get // closer to `high_freq_ratio_rolloff` (which is in [0, 1]). *ratio = (target_ratio_recip * (1.0 - rolloff_t)) + rolloff_t; @@ -608,8 +623,8 @@ impl CompressorBank { .compare_exchange(true, false, Ordering::SeqCst, Ordering::SeqCst) .is_ok() { - let target_ratio_recip = params.compressors.upwards_ratio.value.recip(); - if high_freq_ratio_rolloff == 0.0 { + let target_ratio_recip = params.compressors.upwards.ratio.value.recip(); + if upwards_high_freq_ratio_rolloff == 0.0 { self.upwards_ratio_recips.fill(target_ratio_recip); } else { for (log2_freq, ratio) in self @@ -618,7 +633,7 @@ impl CompressorBank { .zip(self.upwards_ratio_recips.iter_mut()) { let octave_fraction = log2_freq / log2_nyquist_freq; - let rolloff_t = octave_fraction * high_freq_ratio_rolloff; + let rolloff_t = octave_fraction * upwards_high_freq_ratio_rolloff; *ratio = (target_ratio_recip * (1.0 - rolloff_t)) + rolloff_t; } } diff --git a/plugins/spectral_compressor/src/lib.rs b/plugins/spectral_compressor/src/lib.rs index cb70ca54..8d7ee83c 100644 --- a/plugins/spectral_compressor/src/lib.rs +++ b/plugins/spectral_compressor/src/lib.rs @@ -87,11 +87,12 @@ pub struct SpectralCompressorParams { /// Parameters controlling the compressor thresholds and curves. #[nested = "threshold"] threshold: compressor_bank::ThresholdParams, - /// Parameters for the compressor bank. + /// Parameters for the upwards and downwards compressors. #[nested = "compressors"] compressors: compressor_bank::CompressorBankParams, } +/// Global parameters controlling the output stage and all compressors. #[derive(Params)] struct GlobalParams { /// Makeup gain applied after the IDFT in the STFT process. If automatic makeup gain is enabled,