// Spectral Compressor: an FFT based compressor // Copyright (C) 2021-2022 Robbert van der Helm // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . use nih_plug::prelude::*; #[derive(Params)] pub struct CompressorBankParams { /// The downwards compression threshold relative to the target curve. #[id = "thresh_down_off"] downwards_threshold_offset_db: FloatParam, #[id = "thresh_up_off"] /// The upwards compression threshold relative to the target curve. upwards_threshold_offset_db: FloatParam, /// The downwards compression ratio. At 1.0 the downwards compressor is disengaged. #[id = "ratio_down"] downwards_ratio: FloatParam, /// The upwards compression ratio. At 1.0 the upwards compressor is disengaged. #[id = "ratio_up"] upwards_ratio: FloatParam, // TODO: High frequency ratio falloff, make the compression milder for higher frequencies to make it less piercing /// The compressor's attack time in milliseconds. Controls both upwards and downwards /// compression. #[id = "attack"] compressor_attack_ms: FloatParam, /// The compressor's release time in milliseconds. Controls both upwards and downwards /// compression. #[id = "release"] compressor_release_ms: FloatParam, } impl Default for CompressorBankParams { fn default() -> Self { Self { // 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", 0.0, FloatRange::Linear { min: -50.0, max: 50.0, }, ) .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_unit(" dB") .with_step_size(0.1), downwards_ratio: FloatParam::new( "Downwards Ratio", 1.0, FloatRange::Skewed { min: 1.0, max: 300.0, factor: FloatRange::skew_factor(-2.0), }, ) .with_step_size(0.1) .with_value_to_string(formatters::v2s_compression_ratio(1)) .with_string_to_value(formatters::s2v_compression_ratio()), upwards_ratio: FloatParam::new( "Upwards Ratio", 1.0, FloatRange::Skewed { min: 1.0, max: 300.0, factor: FloatRange::skew_factor(-2.0), }, ) .with_step_size(0.1) .with_value_to_string(formatters::v2s_compression_ratio(1)) .with_string_to_value(formatters::s2v_compression_ratio()), compressor_attack_ms: FloatParam::new( "Attack", 150.0, FloatRange::Skewed { // TODO: Make sure to handle 0 attack and release times in the compressor min: 0.0, max: 10_000.0, factor: FloatRange::skew_factor(-2.0), }, ) .with_unit(" ms") .with_step_size(0.1), compressor_release_ms: FloatParam::new( "Release", 300.0, FloatRange::Skewed { min: 0.0, max: 10_000.0, factor: FloatRange::skew_factor(-2.0), }, ) .with_unit(" ms") .with_step_size(0.1), } } }